Expressed sequences of Arabidopsis thaliana

ABSTRACT

Isolated nucleotide compositions and sequences are provided for Arabidopsis thaliana genes. The nucleic acid compositions find use in identifying homologous or related genes; in producing compositions that modulate the expression or function of its encoded protein, mapping functional regions of the protein; and in studying associated physiological pathways. The genetic sequences may also be used for the genetic manipulation of cells, particularly of plant cells. The encoded gene products and modified organisms are useful for screening of biologically active agents, e.g. fungicides, insecticides, etc.; for elucidating biochemical pathways; and the like.

CROSS-REFERENCE TO RELATED APPLICATION

[0001] This application claims the benefit of U.S. Application Ser. No. 09/638,258 and U.S. Provisional Application No. 60/148,784 filed Aug. 13, 1999.

FIELD OF INVENTION

[0002] The invention is in the field of polynucleotide sequences of a plant, particularly sequences expressed in arabidopsis thaliana.

BACKGROUND OF THE INVENTION

[0003] Plants and plant products have vast commercial importance in a wide variety of areas including food crops for human and animal consumption, flavor enhancers for food, and production of specialty chemicals for use in products such as medicaments and fragrances. In considering food crops for humans and livestock, genes such as those involved in a plant's resistance to insects, plant viruses, and fungi; genes involved in pollination; and genes whose products enhance the nutritional value of the food, are of major importance. A number of such genes have been described, see, for example, McCaskill and Croteau (1999) Nature Biotechnol. 17:31-36.

[0004] Despite recent advances in methods for identification, cloning, and characterization of genes, much remains to be learned about plant physiology in general, including how plants produce many of the above-mentioned products; mechanisms for resistance to herbicides, insects, plant viruses, fungi; elucidation of genes involved in specific biosynthetic pathways; and genes involved in environmental tolerance, e.g., salt tolerance, drought tolerance, or tolerance to anaerobic conditions.

[0005]Arabidopsis thaliana is a model system for genetic, molecular and biochemical studies of higher plants. Features of this plant that make it a model system for genetic and molecular biology research include a small genome size, organized into five chromosomes and containing an estimated 20,000 genes, a rapid life cycle, prolific seed production and, since it is small, it can easily be cultivation in limited space. A. thaliana is a member of the mustard family (Brassicaceae) with a broad natural distribution throughout Europe, Asia, and North America. Many different ecotypes have been collected from natural populations and are available for experimental analysis. The entire life cycle, including seed germination, formation of a rosette plant, bolting of the main stem, flowering, and maturation of the first seeds, is completed in 6 weeks. A large number of mutant lines are available that affect nearly all aspects of its growth. These features greatly facilitate the isolation of fundamentally interesting and potentially important genes for agronomic development

[0006] Most gene products from higher plants exhibit adequate sequence similarity to deduced amino acid sequences of other plant genes to permit assignment of probable gene function, if it is known, in any higher plant. It is likely that there will be very few protein-encoding angiosperm genes that do not have orthologs or paralogs in Arabidopsis. The developmental diversity of higher plants may be largely due to changes in the cis-regulatory sequences of transcriptional regulators and not in coding sequences.

[0007] Many advances reported over the past few years offer clear evidence that this plant is not only a very important model species for basic research, but also extremely valuable for applied plant scientists and plant breeders. Knowledge gained from Arabidopsis can be used directly to develop desired traits in plants of other species.

Relevant Literature

[0008] Cold Spring Harbor Monograph 27 (1994) E. M. Meyerowitz and C. R. Somerville, eds. (CSH Laboratory Press). Annual Plant Reviews, Vol.1: Arabidopsis (1998) M. Anderson and J. A. Roberts, eds. (CRC Press). Methods in Molecular Biology: Arabidopsis Protocols, Vol. 82 (1997) J. M. Martinez-Zapater and J. Salinas, eds. (CRC Press).

[0009] Mayer et al (1999) Nature 402(6763):769-77; “Sequence and analysis of chromosome 4 of the plant Arabidopsis thaliana”. Lin et al. (1999) 402(6763):761-8, “Sequence and analysis of chromosome 2 of the plant Arabidopsis thaliana”. Meinke et al. (1998) Science 282:662-682, “Arabidopsis thaliana: a model plant for genome analysis”. Somerville and Somerville (1999) Science 285:380-383, “Plant functional genomics”. Mozo et al. (1999) Nat. Genet. 22:271-275, “A complete BAC-based physical map of the Arabidopsis thaliana genome”.

SUMMARY OF THE INVENTION

[0010] Novel nucleic acid sequences of Arabidopsis thaliana, their encoded polypeptides and variants thereof, genes corresponding to these nucleic acids, and proteins expressed by the genes, are provided.

[0011] The invention also provides diagnostic, prophylactic and therapeutic agents employing such novel nucleic acids, their corresponding genes or gene products, including expression constructs, probes, antisense constructs, and the like. The genetic sequences may also be used for the genetic manipulation of plant cells, particularly dicotyledonous plants. The encoded gene products and modified organisms are useful for introducing or improving disease resistance and stress tolerance into plants; screening of biologically active agents, e.g. fungicides, etc.; for elucidating biochemical pathways; and the like.

[0012] In one embodiment of the invention, a nucleic acid is provided that comprises a start codon; an optional intervening sequence; a coding sequence capable of hybridizing under stringent conditions as set forth in SEQ ID NO: 1 to 900; and an optional terminal sequence, wherein at least one of said optional sequences is present. Such a nucleic acid may correspond to naturally occurring Arabidopsis expressed sequences.

DETAILED DESCRIPTION OF THE INVENTION

[0013] Novel nucleic acid sequences from Arabidopsis thaliana, their encoded polypeptides and variants thereof, genes corresponding to these nucleic acids and proteins expressed by the genes are provided. The invention also provides agents employing such novel nucleic acids, their corresponding genes or gene products, including expression constructs, probes, antisense constructs, and the like. The nucleotide sequences are provided in the attached SEQLIST.

[0014] Sequences include, but are not limited to, sequences that encode resistance proteins; sequences that encode tolerance factors; sequences encoding proteins or other factors that are involved, directly or indirectly in biochemical pathways such as metabolic or biosynthetic pathways, sequences involved in signal transduction, sequences involved in the regulation of gene expression, structural genes, and the like. Biosynthetic pathways of interest include, but are not limited to, biosynthetic pathways whose product (which may be an end product or an intermediate) is of commercial, nutritional, or medicinal value.

[0015] The sequences may be used in screening assays of various plant strains to determine the strains that are best capable of withstanding a particular disease or environmental stress. Sequences encoding activators and resistance proteins may be introduced into plants that are deficient in these sequences. Alternatively, the sequences may be introduced under the control of promoters that are convenient for induction of expression. The protein products may be used in screening programs for insecticides, fungicides and antibiotics to determine agents that mimic or enhance the resistance proteins. Such agents may be used in improved methods of treating crops to prevent or treat disease. The protein products may also be used in screening programs to identify agents which mimic or enhance the action of tolerance factors. Such agents may be used in improved methods of treating crops to enhance their tolerance to environmental stresses.

[0016] Still other embodiments of the invention provide methods for enhancing or inhibiting production of a biosynthetic product in a plant by introducing a nucleic acid of the invention into a plant cell, where the nucleic acid comprises sequences encoding a factor which is involved, directly or indirectly in a biosynthetic pathway whose products are of commercial, nutritional, or medicinal value include any factor, usually a protein or peptide, which regulates such a biosynthetic pathway; which is an intermediate in such a biosynthetic pathway; or which in itself is a product that increases the nutritional value of a food product; or which is a medicinal product; or which is any product of commercial value.

[0017] Transgenic plants containing the antisense nucleic acids of the invention are useful for identifying other mediators that may induce expression of proteins of interest; for establishing the extent to which any specific insect and/or pathogen is responsible for damage of a particular plant; for identifying other mediators that may enhance or induce tolerance to environmental stress; for identifying factors involved in biosynthetic pathways of nutritional, commercial, or medicinal value; or for identifying products of nutritional, commercial, or medicinal value.

[0018] In still other embodiments, the invention provides transgenic plants constructed by introducing a subject nucleic acid of the invention into a plant cell, and growing the cell into a callus and then into a plant; or, alternatively by breeding a transgenic plant from the subject process with a second plant to form an F1 or higher hybrid. The subject transgenic plants and progeny are used as crops for their enhanced disease resistance, enhanced traits of interest, for example size or flavor of fruit, length of growth cycle, etc., or for screening programs, e.g. to determine more effective insecticides, etc; used as crops which exhibit enhanced tolerance environmental stress; or used to produce a factor.

[0019] Those skilled in the art will recognize the agricultural advantages inherent in plants constructed to have either increased or decreased expression of resistance proteins; or increased or decreased tolerance to environmental factors; or which produce or over-produce one or more factors involved in a biosynthetic pathway whose product is of commercial, nutritional, or medicinal value. For example, such plants may have increased resistance to attack by predators, insects, pathogens, microorganisms, herbivores, mechanical damage and the like; may be more tolerant to environmental stress, e.g. may be better able to withstand drought conditions, freezing, and the like; or may produce a product not normally made in the plant, or may produce a product in higher than normal amounts, where the product has commercial, nutritional, or medicinal value. Plants which may be useful include dicotyledons and monocotyledons. Representative examples of plants in which the provided sequences may be useful include tomato, potato, tobacco, cotton, soybean, alfalfa, rape, and the like. Monocotyledons, more particularly grasses (Poaceae family) of interest, include, without limitation, Avena sativa (oat); Avena strigosa (black oat); Elymus (wild rye); Hordeum sp. including Hordeum vulgare (barley); Oryza sp., including Oryza glaberrima (African rice); Oryza longistaminata (long-staminate rice); Pennisetum americanum (pearl millet); Sorghum sp. (sorghum); Triticum sp., including Triticum aestivum (common wheat); Triticum durum (durum wheat); Zea mays (corn); etc.

NUCLEIC ACID COMPOSITIONS

[0020] The following detailed description describes the nucleic acid compositions encompassed by the invention, methods for obtaining cDNA or genomic DNA encoding a full-length gene product, expression of these nucleic acids and genes; identification of structural motifs of the nucleic acids and genes; identification of the function of a gene product encoded by a gene corresponding to a nucleic acid of the invention; use of the provided nucleic acids as probes, in mapping, and in diagnosis; use of the corresponding polypeptides and other gene products to raise antibodies; use of the nucleic acids in genetic modification of plant and other species; and use of the nucleic acids, their encoded gene products, and modified organisms, for screening and diagnostic purposes.

[0021] The scope of the invention with respect to nucleic acid compositions includes, but is not necessarily limited to, nucleic acids having a sequence set forth in any one of SEQ ID NOS: 1-900; nucleic acids that hybridize the provided sequences under stringent conditions; genes corresponding to the provided nucleic acids; variants of the provided nucleic acids and their corresponding genes, particularly those variants that retain a biological activity of the encoded gene product.

[0022] In one embodiment, the sequences of the invention provide a polypeptide coding sequence. The polypeptide coding sequence may correspond to a naturally expressed mRNA in Arabidopsis or other species, or may encode a fusion protein between one of the provided sequences and an exogenous protein coding sequence. The coding sequence is characterized by an ATG start codon, a lack of stop codons in-frame with the ATG, and a termination codon, that is, a continuous open frame is provided between the start and the stop codon. The sequence contained between the start and the stop codon will comprise a sequence capable of hybridizing under stringent conditions to a sequence set for in SEQ ID NO: 1-900, and may comprise the sequence set forth in the Seqlist.

[0023] Other nucleic acid compositions contemplated by and within the scope of the present invention will be readily apparent to one of ordinary skill in the art when provided with the disclosure here.

[0024] The invention features nucleic acids that are derived from Arabidopsis thaliana. Novel nucleic acid compositions of the invention of particular interest comprise a sequence set forth in any one of SEQ ID NOS: 1-900 or an identifying sequence thereof. An “identifying sequence” is a contiguous sequence of residues at least about 10 nt to about 20 nt in length, usually at least about 50 nt to about 100 nt in length, that uniquely identifies a nucleic acid sequence, e.g., exhibits less than 90%, usually less than about 80% to about 85% sequence identity to any contiguous nucleotide sequence of more than about 20 nt. Thus, the subject novel nucleic acid compositions include full length cDNAs or mRNAs that encompass an identifying sequence of contiguous nucleotides from any one of SEQ ID NOS: 1-900.

[0025] The nucleic acids of the invention also include nucleic acids having sequence similarity or sequence identity. Nucleic acids having sequence similarity are detected by hybridization under low stringency conditions, for example, at 50° C. and 10XSSC (0.9 M NaCI/0.09 M sodium citrate) and remain bound when subjected to washing at 55° C. in 1XSSC. Sequence identity can be determined by hybridization under stringent conditions, for example, at 50° C. or higher and 0.1XSSC (9 mM NaCl/0.9 mM sodium citrate). Hybridization methods and conditions are well known in the art, see U.S. Pat. No. 5,707,829. Nucleic acids that are substantially identical to the provided nucleic acid sequences, e.g. allelic variants, genetically altered versions of the gene, etc., bind to the provided nucleic acid sequences (SEQ ID NOS: 1-900) under stringent hybridization conditions. By using probes, particularly labeled probes of DNA sequences, one can isolate homologous or related genes. The source of homologous genes can be any species, particularly grasses as previously described.

[0026] Preferably, hybridization is performed using at least 15 contiguous nucleotides of at least one of SEQ ID NOS: 1-900. The probe will preferentially hybridize with a nucleic acid or mRNA comprising the complementary sequence, allowing the identification and retrieval of the nucleic acids of the biological material that uniquely hybridize to the selected probe. Probes of more than 15 nucleotides can be used, e.g. probes of from about 18 nucleotides up to the entire length of the provided nucleic acid sequences, but 15 nucleotides generally represents sufficient sequence for unique identification.

[0027] The nucleic acids of the invention also include naturally occurring variants of the nucleotide sequences, e.g. degenerate variants, allelic variants, etc. Variants of the nucleic acids of the invention are identified by hybridization of putative variants with nucleotide sequences disclosed herein, preferably by hybridization under stringent conditions For example, by using appropriate wash conditions, variants of the nucleic acids of the invention can be identified where the allelic variant exhibits at most about 25-30% base pair mismatches relative to the selected nucleic acid probe. In general, allelic variants contain 5-25% base pair mismatches, and can contain as little as even 2-5%, or 1-2% base pair mismatches, as well as a single base-pair mismatch.

[0028] The invention also encompasses homologs corresponding to the nucleic acids of SEQ ID NOS: 1-900, where the source of homologous genes can be any related species, usually within the same genus or group. Homologs have substantial sequence similarity, e.g. at least 75% sequence identity, usually at least 90%, more usually at least 95% between nucleotide sequences. Sequence similarity is calculated based on a reference sequence, which may be a subset of a larger sequence, such as a conserved motif, coding region, flanking region, etc. A reference sequence will usually be at least about 18 contiguous nt long, more usually at least about 30 nt long, and may extend to the complete sequence that is being compared. Algorithms for sequence analysis are known in the art, such as BLAST, described in Altschul et al., J. Mol. Biol. (1990) 215:403-10.

[0029] In general, variants of the invention have a sequence identity greater than at least about 65%, preferably at least about 75%, more preferably at least about 85%, and can be greater than at least about 90% or more as determined by the Smith-Waterman homology search algorithm as implemented in MPSRCH program (Oxford Molecular). For the purposes of this invention, a preferred method of calculating percent identity is the Smith-Waterman algorithm, using the following. Global DNA sequence identity must be greater than 65% as determined by the Smith-Wateman homology search algorithm as implemented in MPSRCH program (Oxford Molecular) using an affine gap search with the following search parameters: gap open penalty, 12; and gap extention penalty, 1.

[0030] The subject nucleic acids can be cDNAs or genomic DNAs, as well as fragments thereof, particularly fragments that encode a biologically active gene product and/or are useful in the methods disclosed herein. The term “cDNA” as used herein is intended to include all nucleic acids that share the arrangement of sequence elements found in native mature mRNA species, where sequence elements are exons and 3′ and 5′ non-coding regions. Normally mRNA species have contiguous exons, with the introns, when present, being removed by nuclear RNA splicing, to create a continuous open reading frame encoding a polypeptide of the invention.

[0031] A genomic sequence of interest comprises the nucleic acid present between the initiation codon and the stop codon, as defined in the listed sequences, including all of the introns that are normally present in a native chromosome. It can further include the 3′ and 5′ untranslated regions found in the mature mRNA. It can further include specific transcriptional and translational regulatory sequences, such as promoters, enhancers, etc., including about 1 kb, but possibly more, of flanking genomic DNA at either the 5′ and 3′ end of the transcribed region. The genomic DNA can be isolated as a fragment of 100 kb or smaller; and substantially free of flanking chromosomal sequence. The genomic DNA flanking the coding region, either 3′ and 5′, or internal regulatory sequences as sometimes found in introns, contains sequences required for expression.

[0032] The nucleic acid compositions of the subject invention can encode all or a part of the subject expressed polypeptides. Double or single stranded fragments can be obtained from the DNA sequence by chemically synthesizing oligonucleotides in accordance with conventional methods, by restriction enzyme digestion, by PCR amplification, etc. Isolated nucleic acids and nucleic acid fragments of the invention comprise at least about 15 up to about 100 contiguous nucleotides, or up to the complete sequence provided in SEQ ID NOS: 1-900. For the most part, fragments will be of at least 15 nt, usually at least 18 nt or 25 nt, and up to at least about 50 contiguous nt in length or more.

[0033] Probes specific to the nucleic acids of the invention can be generated using the nucleic acid sequences disclosed in SEQ ID NOS: 1-900 and the fragments as described above. The probes can be synthesized chemically or can be generated from longer nucleic acids using restriction enzymes. The probes can be labeled, for example, with a radioactive, biotinylated, or fluorescent tag. Preferably, probes are designed based upon an identifying sequence of a nucleic acid of one of SEQ ID NOS: 1-900. More preferably, probes are designed based on a contiguous sequence of one of the subject nucleic acids that remain unmasked following application of a masking program for masking low complexity (e.g., XBLAST) to the sequence., i.e. one would select an unmasked region, as indicated by the nucleic acids outside the poly-n stretches of the masked sequence produced by the masking program.

[0034] The nucleic acids of the subject invention are isolated and obtained in substantial purity, generally as other than an intact chromosome. Usually, the nucleic acids, either as DNA or RNA, will be obtained substantially free of other naturally-occurring nucleic acid sequences, generally being at least about 50%, usually at least about 90% pure and are typically “recombinant”, e.g., flanked by one or more nucleotides with which it is not normally associated on a naturally occurring chromosome.

[0035] The nucleic acids of the invention can be provided as a linear molecule or within a circular molecule. They can be provided within autonomously replicating molecules (vectors) or within molecules without replication sequences. They can be regulated by their own or by other regulatory sequences, as is known in the art. The nucleic acids of the invention can be introduced into suitable host cells using a variety of techniques which are available in the art, such as transferrin polycation-mediated DNA transfer, transfection with naked or encapsulated nucleic acids, liposome-mediated DNA transfer, intracellular transportation of DNA-coated latex beads, protoplast fusion, viral infection, electroporation, gene gun, calcium phosphate-mediated transfection, and the like.

[0036] The subject nucleic acid compositions can be used to, for example, produce polypeptides, as probes for the detection of mRNA of the invention in biological samples, e.g. extracts of cells, to generate additional copies of the nucleic acids, to generate ribozymes or antisense oligonucleotides, and as single stranded DNA probes or as triple-strand forming oligonucleotides. The probes described herein can be used to, for example, determine the presence or absence of the nucleic acid sequences as shown in SEQ ID NOS: 1-900 or variants thereof in a sample. These and other uses are described in more detail below.

USE OF NUCLEIC ACIDS AS CODING SEQUENCES

[0037] Naturally occurring Arabidopsis polypeptides or fragments thereof are encoded by the provided nucleic acids. Methods are known in the art to determine whether the complete native protein is encoded by a candidate nucleic acid sequence. Where the provided sequence encodes a fragment of a polypeptide, methods known in the art may be used to determine the remaining sequence. These approaches may utilize a bioinformatics approach, a cloning approach, extension of mRNA species, etc.

[0038] Substantial genomic sequence is available for Arabidopsis, and may be exploited for determining the complete coding sequence corresponding to the provided sequences. The region of the chromosome to which a given sequence is located may be determined by hybridization or by database searching. The genomic sequence is then searched upstream and downstream for the presence of intron/exon boundaries, and for motifs characteristic of transcriptional start and stop sequences, for example by using Genscan (Burge and Karlin (1997) J. Mol. Biol. 268:78-94); or GRAIL (Uberbacher and Mural (1991) P.N.A.S. 88:11261-1265).

[0039] Alternatively, nucleic acid having a sequence of one of SEQ ID NOS: 1-900, or an identifying fragment thereof, is used as a hybridization probe to complementary molecules in a cDNA library using probe design methods, cloning methods, and clone selection techniques as known in the art. Libraries of cDNA are made from selected cells. The cells may be those of A. thaliana, or of related species. In some cases it will be desirable to select cells from a particular stage, e.g. seeds, leaves, infected cells, etc.

[0040] Techniques for producing and probing nucleic acid sequence libraries are described, for example, in Sambrook et al., Molecular Cloning: A Laboratory Manual, 2^(nd) Ed., (1989) Cold Spring Harbor Press, Cold Spring Harbor, N.Y.; and Current Protocols in Molecular Biology, (1987 and updates) Ausubel et al., eds. The cDNA can be prepared by using primers based on sequence from SEQ ID NOS: 1-900. In one embodiment, the cDNA library can be made from only poly-adenylated mRNA. Thus, poly-T primers can be used to prepare cDNA from the mRNA.

[0041] Members of the library that are larger than the provided nucleic acids, and preferably that encompass the complete coding sequence of the native message, are obtained. In order to confirm that the entire cDNA has been obtained, RNA protection experiments are performed as follows. Hybridization of a full-length cDNA to an mRNA will protect the RNA from RNase degradation. If the cDNA is not full length, then the portions of the mRNA that are not hybridized will be subject to RNase degradation. This is assayed, as is known in the art, by changes in electrophoretic mobility on polyacrylamide gels, or by detection of released monoribonucleotides. Sambrook et al., Molecular Cloning: A Laboratory Manual, ₂nd Ed., (1989) Cold Spring Harbor Press, Cold Spring Harbor, N.Y. In order to obtain additional sequences 5′ to the end of a partial cDNA, 5′ RACE (PCR Protocols: A Guide to Methods and Applications, (1990) Academic Press, Inc.) may be performed.

[0042] Genomic DNA is isolated using the provided nucleic acids in a manner similar to the isolation of full-length cDNAs. Briefly, the provided nucleic acids, or portions thereof, are used as probes to libraries of genomic DNA. Preferably, the library is obtained from the cell type that was used to generate the nucleic acids of the invention, but this is not essential. Such libraries can be in vectors suitable for carrying large segments of a genome, such as P1 or YAC, as described in detail in Sambrook et al., 9.4-9.30. In order to obtain additional 5′ or 3′ sequences, chromosome walking is performed, as described in Sambrook et al., such that adjacent and overlapping fragments of genomic DNA are isolated. These are mapped and pieced together, as is known in the art, using restriction digestion enzymes and DNA ligase.

[0043] PCR methods may be used to amplify the members of a cDNA library that comprise the desired insert. In this case, the desired insert will contain sequence from the full length cDNA that corresponds to the instant nucleic acids. Such PCR methods include gene trapping and RACE methods. Gene trapping entails inserting a member of a cDNA library into a vector. The vector then is denatured to produce single stranded molecules. Next, a substrate-bound probe, such a biotinylated oligo, is used to trap cDNA inserts of interest. Biotinylated probes can be linked to an avidin-bound solid substrate. PCR methods can be used to amplify the trapped cDNA. To trap sequences corresponding to the full length genes, the labeled probe sequence is based on the nucleic acid sequences of the invention. Random primers or primers specific to the library vector can be used to amplify the trapped cDNA. Such gene trapping techniques are described in Gruber et al., WO 95/04745 and Gruber et al., U.S. Pat. No. 5,500,356. Kits are commercially available to perform gene trapping experiments from, for example, Life Technologies, Gaithersburg, Md., U.S.A.

[0044] “Rapid amplification of cDNA ends”, or RACE, is a PCR method of amplifying cDNAs from a number of different RNAs. The cDNAs are ligated to an oligonucleotide linker, and amplified by PCR using two primers. One primer is based on sequence from the instant nucleic acids, for which full length sequence is desired, and a second primer comprises sequence that hybridizes to the oligonucleotide linker to amplify the cDNA. A description of this methods is reported in WO 97/19110. A common primer may be designed to anneal to an arbitrary adaptor sequence ligated to cDNA ends. When a single gene-specific RACE primer is paired with the common primer, preferential amplification of sequences between the single gene specific primer and the common primer occurs. Commercial CDNA pools modified for use in RACE are available.

[0045] Once the full-length cDNA or gene is obtained, DNA encoding variants can be prepared by site-directed mutagenesis, described in detail in Sambrook et al., 15.3-15.63. The choice of codon or nucleotide to be replaced can be based on disclosure herein on optional changes in amino acids to achieve altered protein structure and/or function. As an alternative method to obtaining DNA or RNA from a biological material, nucleic acid comprising nucleotides having the sequence of one or more nucleic acids of the invention can be synthesized.

EXPRESSION OF POLYPEPTIDES

[0046] The provided nucleic acid, e.g. a nucleic acid having a sequence of one of SEQ ID NOS: 1-900), the corresponding cDNA, the polypeptide coding sequence as described above, or the full-length gene is used to express a partial or complete gene product. Constructs of nucleic acids having sequences of SEQ ID NOS: 1-900 can be generated by recombinant methods, synthetically, or in a single-step assembly of a gene and entire plasmid from large numbers of oligodeoxyribonucleotides is described by, e.g. Stemmer et al., Gene (Amsterdam) (1995) 164(1):49-53.

[0047] Appropriate nucleic acid constructs are purified using standard recombinant DNA techniques as described in, for example, Sambrook et al., Molecular Cloning: A Laboratory Manual, 2^(nd) Ed., (1989) Cold Spring Harbor Press, Cold Spring Harbor, N.Y. The gene product encoded by a nucleic acid of the invention is expressed in any expression system, including, for example, bacterial, yeast, insect, amphibian and mammalian systems.

[0048] The subject nucleic acid molecules are generally propagated by placing the molecule in a vector. Viral and non-viral vectors are used, including plasmids. The choice of plasmid will depend on the type of cell in which propagation is desired and the purpose of propagation. Certain vectors are useful for amplifying and making large amounts of the desired DNA sequence. Other vectors are suitable for expression in cells in culture. Still other vectors are suitable for transfer and expression in cells in a whole organism or person. The choice of appropriate vector is well within the skill of the art. Many such vectors are available commercially.

[0049] The nucleic acids set forth in SEQ ID NOS: 1-900 or their corresponding full-length nucleic acids are linked to regulatory sequences as appropriate to obtain the desired expression properties. These can include promoters attached either at the 5′ end of the sense strand or at the 3′ and of the antisense strand, enhancers, terminators, operators, repressors, and inducers. The promoters can be regulated or constitutive. In some situations it may be desirable to use conditionally active promoters, such as tissue-specific or developmental stage-specific promoters. These are linked to the desired nucleotide sequence using the techniques described above for linkage to vectors. Any techniques known in the art can be used.

[0050] When any of the above host cells, or other appropriate host cells or organisms, are used to replicate and/or express the nucleic acids or nucleic acids of the invention, the resulting replicated nucleic acid, RNA, expressed protein or polypeptide, is within the scope of the invention as a product of the host cell or organism. The product is recovered by any appropriate means known in the art.

IDENTIFICATION OF FUNCTIONAL AND STRUCTURAL MOTIFS

[0051] Translations of the nucleotide sequence of the provided nucleic acids, cDNAs or full genes can be aligned with individual known sequences. Similarity with individual sequences can be used to determine the activity of the polypeptides encoded by the nucleic acids of the invention. Also, sequences exhibiting similarity with more than one individual sequence can exhibit activities that are characteristic of either or both individual sequences.

[0052] The six possible reading frames may be translated using programs such as GCG pepdata, or GCG Frames (Wisconsin Package Version 10.0, Genetics Computer Group (GCG) , Madison, Wis., USA.). Programs such as ORFFinder (National Center for Biotechnology Information (NCBI) a division of the National Library of Medicine (NLM) at the National Institutes of Health (NIH) http://www.ncbi.nim.nih.gov/) may be used to identify open reading frames (ORFs) in sequences. ORF finder identifies all possible ORFs in a DNA sequence by locating the standard and alternative stop and start codons. Other ORF identification programs include Genie (Kulp et al. (1996).

[0053] A generalized Hidden Markov Model may be used for the recognition of genes in DNA. (ISMB-96, St. Louis, Mo., AAAI/MIT Press; Reese et al. (1997), “Improved splice site detection in Genie”. Proceedings of the First Annual International Conference on Computational Molecular Biology RECOMB 1997, Santa Fe, N. Mex., ACM Press, N.Y., P. 34.); BESTORF—Prediction of potential coding fragment in human or plant EST/mRNA sequence data using Markov Chain Models; and FGENEP—Multiple genes structure prediction in plant genomic DNA (Solovyev et al. (1995) Identification of human gene structure using linear discriminant functions and dynamic programming. In Proceedings of the Third International Conference on Intelligent Systems for Molecular Biology eds. Rawling et al., Cambridge, England, AAAI Press, 367-375.; Solovyev et al., (1994) Nucl. Acids Res. 22(24):5156-5163; Solovyev et al,. The prediction of human exons by oligonucleotide composition and discriminant analysis of spliceable open reading frames, in: The Second International conference on Intelligent systems for Molecular Biology (eds. Altman et al.), AAAI Press, Menlo Park, Calif. (1994, 354-362) Solovyev and Lawrence, Prediction of human gene structure using dynamic programming and oligonucleotide composition, In: Abstracts of the 4th annual Keck symposium. Pittsburgh, 47,1993; Burge and Karlin (1997) J. Mol. Biol. 268:78-94; Kulp et al. (1996) Proc. Conf. on Intelligent Systems in Molecular Biology '96, 134-142).

[0054] The full length sequences and fragments of the nucleic acid sequences of the nearest neighbors can be used as probes and primers to identify and isolate the full length sequence corresponding to provided nucleic acids. Typically, a selected nucleic acid is translated in all six frames to determine the best alignment with the individual sequences. These amino acid sequences are referred to, generally, as query sequences, which are aligned with the individual sequences. Suitable databases include Genbank, EMBL, and DNA Database of Japan (DDBJ).

[0055] Query and individual sequences can be aligned using the methods and computer programs described above, and include BLAST, available by ftp at ftp://ncbi.nlm.nih.gov/.

[0056] Gapped BLAST and PSI-BLAST are useful search tools provided by NCBI. (version 2.0) (Altschul et al., 1997). Position-Specific Iterated BLAST (PSI-BLAST) provides an automated, easy-to-use version of a “profile” search, which is a sensitive way to look for sequence homologues. The program first performs a gapped BLAST database search. The PSI-BLAST program uses the information from any significant alignments returned to construct a position-specific score matrix, which replaces the query sequence for the next round of database searching. PSI-BLAST may be iterated until no new significant alignments are found. The Gapped BLAST algorithm allows gaps (deletions and insertions) to be introduced into the alignments that are returned. Allowing gaps means that similar regions are not broken into several segments. The scoring of these gapped alignments tends to reflect biological relationships more closely. The Smith-Waterman is another algorithm that produces local or global gapped sequence alignments, see Meth. Mol. Biol. (1997) 70: 173-187. Also, the GAP program using the Needleman and Wunsch global alignment method can be utilized for sequence alignments.

[0057] Results of individual and query sequence alignments can be divided into three categories, high similarity, weak similarity, and no similarity. Individual alignment results ranging from high similarity to weak similarity provide a basis for determining polypeptide activity and/or structure. Parameters for categorizing individual results include: percentage of the alignment region length where the strongest alignment is found, percent sequence identity, and e value.

[0058] The percentage of the alignment region length is calculated by counting the number of residues of the individual sequence found in the region of strongest alignment, e.g. contiguous region of the individual sequence that contains the greatest number of residues that are identical to the residues of the corresponding region of the aligned query sequence. This number is divided by the total residue length of the query sequence to calculate a percentage. For example, a query sequence of 20 amino acid residues might be aligned with a 20 amino acid region of an individual sequence. The individual sequence might be identical to amino acid residues 5, 9-15, and 17-19 of the query sequence. The region of strongest alignment is thus the region stretching from residue 9-19, an 11 amino acid stretch. The percentage of the alignment region length is: 11 (length of the region of strongest alignment) divided by (query sequence length) 20 or 55%.

[0059] Percent sequence identity is calculated by counting the number of amino acid matches between the query and individual sequence and dividing total number of matches by the number of residues of the individual sequences found in the region of strongest alignment. Thus, the percent identity in the example above would be 10 matches divided by 11 amino acids, or approximately, 90.9%

[0060] E value is the probability that the alignment was produced by chance. For a single alignment, the e value can be calculated according to Karlin et al., Proc. Natl. Acad. Sci. (1990) 87:2264 and Karlin et al., Proc. Natl. Acad. Sci. (1993) 90. The e value of multiple alignments using the same query sequence can be calculated using an heuristic approach described in Altschul et al., Nat. Genet. (1994) 6:119. Alignment programs such as BLAST program can calculate the e value.

[0061] Another factor to consider for determining identity or similarity is the location of the similarity or identity. Strong local alignment can indicate similarity even if the length of alignment is short. Sequence identity scattered throughout the length of the query sequence also can indicate a similarity between the query and profile sequences. The boundaries of the region where the sequences align can be determined according to Doolittle, supra; BLAST or FASTA programs; or by determining the area where sequence identity is highest.

[0062] In general, in alignment results considered to be of high similarity, the percent of the alignment region length is typically at least about 55% of total length query sequence; more typically, at least about 58%; even more typically; at least about 60% of the total residue length of the query sequence. Usually, percent length of the alignment region can be as much as about 62%; more usually, as much as about 64%; even more usually, as much as about 66%. Further, for high similarity, the region of alignment, typically, exhibits at least about 75% of sequence identity; more typically, at least about 78%; even more typically; at least about 80% sequence identity. Usually, percent sequence identity can be as much as about 82%; more usually, as much as about 84%; even more usually, as much as about 86%.

[0063] The p value is used in conjunction with these methods. The query sequence is considered to have a high similarity with a profile sequence when the p value is less than or equal to 10⁻². Confidence in the degree of similarity between the query sequence and the profile sequence increases as the p value become smaller.

[0064] In general, where alignment results considered to be of weak similarity, there is no minimum percent length of the alignment region nor minimum length of alignment. A better showing of weak similarity is considered when the region of alignment is, typically, at least about 15 amino acid residues in length; more typically, at least about 20; even more typically; at least about 25 amino acid residues in length. Usually, length of the alignment region can be as much as about 30 amino acid residues; more usually, as much as about 40; even more usually, as much as about 60 amino acid residues. Further, for weak similarity, the region of alignment, typically, exhibits at least about 35% of sequence identity; more typically, at least about 40%; even more typically; at least about 45% sequence identity. Usually, percent sequence identity can be as much as about 50%; more usually, as much as about 55%; even more usually, as much as about 60%.

[0065] The query sequence is considered to have a low similarity with a profile sequence when the p value is greater than 10⁻². Confidence in the degree of similarity between the query sequence and the profile sequence decreases as the p values become larger.

[0066] Sequence identity alone can be used to determine similarity of a query sequence to an individual sequence and can indicate the activity of the sequence. Such an alignment, preferably, permits gaps to align sequences. Typically, the query sequence is related to the profile sequence if the sequence identity over the entire query sequence is at least about 15%; more typically, at least about 20%; even more typically, at least about 25%; even more typically, at least about 50%. Sequence identity alone as a measure of similarity is most useful when the query sequence is usually, at least 80 residues in length; more usually, 90 residues; even more usually, at least 95 amino acid residues in length. More typically, similarity can be concluded based on sequence identity alone when the query sequence is preferably 100 residues in length; more preferably, 120 residues in length; even more preferably, 150 amino acid residues in length.

[0067] It is apparent, when studying protein sequence families, that some regions have been better conserved than others during evolution. These regions are generally important for the function of a protein and/or for the maintenance of its three-dimensional structure. By analyzing the constant and variable properties of such groups of similar sequences, it is possible to derive a signature for a protein family or domain, which distinguishes its members from all other unrelated proteins. A pertinent analogy is the use of fingerprints by the police for identification purposes. A fingerprint is generally sufficient to identify a given individual. Similarly, a protein signature can be used to assign a new sequence to a specific family of proteins and thus to formulate hypotheses about its function. The PROSITE database is a compendium of such fingerprints (motifs) and may be used with search software such as Wisconsin GCG Motifs to find motifs or fingerprints in query sequences. PROSITE currently contains signatures specific for about a thousand protein families or domains. Each of these signatures comes with documentation providing background information on the structure and function of these proteins (Hofmann et al. (1999) Nucleic Acids Res. 27:215-219; Bucher and Bairoch., A generalized profile syntax for biomolecular sequences motifs and its function in automatic sequence interpretation (In) ISMB-94; Proceedings 2nd International Conference on Intelligent Systems for Molecular Biology; Altman et al. Eds. (1994), pp 53-61, AAAI Press, Menlo Park).

[0068] Translations of the provided nucleic acids can be aligned with amino acid profiles that define either protein families or common motifs. Also, translations of the provided nucleic acids can be aligned to multiple sequence alignments (MSA) comprising the polypeptide sequences of members of protein families or motifs. Similarity or identity with profile sequences or MSAs can be used to determine the activity of the gene products (e.g., polypeptides) encoded by the provided nucleic acids or corresponding cDNA or genes.

[0069] Profiles can designed manually by (1) creating an MSA, which is an alignment of the amino acid sequence of members that belong to the family and (2) constructing a statistical representation of the alignment. Such methods are described, for example, in Birney et al., Nucl. Acid Res. (1996) 24(14): 2730-2739. MSAs of some protein families and motifs are available for downloading to a local server. For example, the PFAM database with MSAs of 547 different families and motifs, and the software (HMMER) to search the PFAM database may be downloaded from ftp://ftp.genetics.wustl.edu/pub/eddy/pfam-4.4/ to allow secure searches on a local server. Pfam is a database of multiple alignments of protein domains or conserved protein regions., which represent evolutionary conserved structure that has implications for the protein's function (Sonnhammer et al. (1998) Nucl. Acid Res. 26:320-322; Bateman et al., (1999) Nucleic Acids Res. 27:260-262).

[0070] The 3D₁₃ali databank (Pasarella, S. and Argos, P. (1992) Prot. Engineering 5:121-137) was constructed to incorporate new protein structural and sequence data. The databank has proved useful in many research fields such as protein sequence and structure analysis and comparison, protein folding, engineering and design and evolution. The collection enhances present protein structural knowledge by merging information from proteins of similar main-chain fold with homologous primary structures taken from large databases of all known sequences. 3D₁₃ali databank files may be downloaded to a secure local server from http://www.emblheidelberg.de/argos/ali/ali₁₃form.html.

[0071] The identify and function of the gene that correlates to a nucleic acid described herein can be determined by screening the nucleic acids or their corresponding amino acid sequences against profiles of protein families. Such profiles focus on common structural motifs among proteins of each family. Publicly available profiles are known in the art.

[0072] In comparing a novel nucleic acid with known sequences, several alignment tools are available. Examples include PileUp, which creates a multiple sequence alignment, and is described in Feng et al., J. Mol. Evol. (1987) 25:351. Another method, GAP, uses the alignment method of Needleman et al., J. Mol. Biol. (1970) 48:443. GAP is best suited for global alignment of sequences. A third method, BestFit, functions by inserting gaps to maximize the number of matches using the local homology algorithm of Smith et al., (1981) Adv. Appl. Math. 2:482.

IDENTIFICATION OF SECRETED & MEMBRANE-BOUND POLYPEPTIDES

[0073] Secreted and membrane-bound polypeptides of the present invention are of interest. Because both secreted and membrane-bound polypeptides comprise a fragment of contiguous hydrophobic amino acids, hydrophobicity predicting algorithms can be used to identify such polypeptides. A signal sequence is usually encoded by both secreted and membrane-bound polypeptide genes to direct a polypeptide to the surface of the cell. The signal sequence usually comprises a stretch of hydrophobic residues. Such signal sequences can fold into helical structures. Membrane-bound polypeptides typically comprise at least one transmembrane region that possesses a stretch of hydrophobic amino acids that can transverse the membrane. Some transmembrane regions also exhibit a helical structure. Hydrophobic fragments within a polypeptide can be identified by using computer algorithms. Such algorithms include Hopp & Woods, Proc. Natl. Acad. Sci. U.S.A. (1981) 78:3824-3828; Kyte & Doolittle, J. Mol. Biol. (1982) 157:105-132; and RAOAR algorithm, Degli Esposti et al., Eur. J. Biochem. (1990) 190: 207-219.

[0074] Another method of identifying secreted and membrane-bound polypeptides is to translate the nucleic acids of the invention in all six frames and determine if at least 8 contiguous hydrophobic amino acids are present. Those translated polypeptides with at least 8; more typically, 10; even more typically, 12 contiguous hydrophobic amino acids are considered to be either a putative secreted or membrane bound polypeptide. Hydrophobic amino acids include alanine, glycine, histidine, isoleucine, leucine, lysine, methionine, phenylalanine, proline, threonine, tryptophan, tyrosine, and valine.

IDENTIFICATION OF THE FUNCTION OF AN EXPRESSION PRODUCT

[0075] The biological function of the encoded gene product of the invention may be determined by empirical or deductive methods. One promising avenue, termed phylogenomics, exploits the use of evolutionary information to facilitate assignment of gene function. The approach is based on the idea that functional predictions can be greatly improved by focusing on how genes became similar in sequence during evolution instead of focusing on the sequence similarity itself. One of the major efficiencies that has emerged from plant genome research to date is that a large percentage of higher plant genes can be assigned some degree of function by comparing them with the sequences of genes of known function.

[0076] Alternatively, “reverse genetics” is used to identify gene function. Large collections of insertion mutants are available for Arabidopsis, maize, petunia, and snapdragon. These collections can be screened for an insertional inactivation of any gene by using the polymerase chain reaction (PCR) primed with oligonucleotides based on the sequences of the target gene and the insertional mutagen. The presence of an insertion in the target gene is indicated by the presence of a PCR product. By multiplexing DNA samples, hundreds of thousands of lines can be screened and the corresponding mutant plants can be identified with relatively small effort. Analysis of the phenotype and other properties of the corresponding mutant will provide an insight into the function of the gene.

[0077] In one method of the invention, the gene function in a transgenic Arabidopsis plant is assessed with anti-sense constructs. A high degree of gene duplication is apparent in Arabidopsis, and many of the gene duplications in Arabidopsis are very tightly linked. Large numbers of transgenic Arabidopsis plants can be generated by infecting flowers with Agrobacterium tumefaciens containing an insertional mutagen, a method of gene silencing based on producing double-stranded RNA from bidirectional transcription of genes in transgenic plants can be broadly useful for high-throughput gene inactivation (Clough and Bent (1999) Plant J. 17; Waterhouse et al. (1998) Proc. Natl. Acad. Sci. U.S.A. 95:13959). This method may use promoters that are expressed in only a few cell types or at a particular developmental stage or in response to an external stimulus. This could significantly obviate problems associated with the lethality of some mutations.

[0078] Virus-induced gene silencing may also find use for suppressing gene function. This method exploits the fact that some or all plants have a surveillance system that can specifically recognize viral nucleic acids and mount a sequence-specific suppression of viral RNA accumulation. By inoculating plants with a recombinant virus containing part of a plant gene, it is possible to rapidly silence the endogenous plant gene.

[0079] Antisense nucleic acids are designed to specifically bind to RNA, resulting in the formation of RNA-DNA or RNA-RNA hybrids, with an arrest of DNA replication, reverse transcription or messenger RNA translation. Antisense nucleic acids based on a selected nucleic acid sequence can interfere with expression of the corresponding gene. Antisense nucleic acids are typically generated within the cell by expression from antisense constructs that contain the antisense strand as the transcribed strand. Antisense nucleic acids based on the disclosed nucleic acids will bind and/or interfere with the translation of mRNA comprising a sequence complementary to the antisense nucleic acid. The expression products of control cells and cells treated with the antisense construct are compared to detect the protein product of the gene corresponding to the nucleic acid upon which the antisense construct is based. The protein is isolated and identified using routine biochemical methods.

[0080] As an alternative method for identifying function of the gene corresponding to a nucleic acid disclosed herein, dominant negative mutations are readily generated for corresponding proteins that are active as homomultimers. A mutant polypeptide will interact with wild-type polypeptides (made from the other allele) and form a nonfunctional multimer. Thus, a mutation is in a substrate-binding domain, a catalytic domain, or a cellular localization domain. Preferably, the mutant polypeptide will be overproduced. Point mutations are made that have such an effect. In addition, fusion of different polypeptides of various lengths to the terminus of a protein can yield dominant negative mutants. General strategies are available for making dominant negative mutants (see for example, Herskowitz (1987) Nature 329:219). Such techniques can be used to create loss of function mutations, which are useful for determining protein function.

[0081] Another approach for discovering the function of genes utilizes gene chips and microarrays. DNA sequences representing all the genes in an organism can be placed on miniature solid supports and used as hybridization substrates to quantitate the expression of all the genes represented in a complex mRNA sample. This information is used to provide extensive databases of quantitative information about the degree to which each gene responds to pathogens, pests, drought, cold, salt, photoperiod, and other environmental variation. Similarly, one obtains extensive information about which genes respond to changes in developmental processes such as germination and flowering. One can therefore determine which genes respond to the phytohormones, growth regulators, safeners, herbicides, and related agrichemicals. These databases of gene expression information provide insights into the “pathways” of genes that control complex responses. The accumulation of DNA microarray or gene chip data from many different experiments creates a powerful opportunity to assign functional information to genes of otherwise unknown function. The conceptual basis of the approach is that genes that contribute to the same biological process will exhibit similar patterns of expression. Thus, by clustering genes based on the similarity of their relative levels of expression in response to diverse stimuli or developmental or environmental conditions, it is possible to assign functions to many genes based on the known function of other genes in the cluster.

CONSTRUCTION OF POLYPEPTIDES OF THE INVENTION AND VARIANTS THEREOF

[0082] The polypeptides of the invention include those encoded by the disclosed nucleic acids. These polypeptides can also be encoded by nucleic acids that, by virtue of the degeneracy of the genetic code, are not identical in sequence to the disclosed nucleic acids. Thus, the invention includes within its scope a polypeptide encoded by a nucleic acid having the sequence of any one of SEQ ID NOS: 1-900 or a variant thereof.

[0083] In general, the term “polypeptide” as used herein refers to both the full length polypeptide encoded by the recited nucleic acid, the polypeptide encoded by the gene represented by the recited nucleic acid, as well as portions or fragments thereof. “Polypeptides” also includes variants of the naturally occurring proteins, where such variants are homologous or substantially similar to the naturally occurring protein, and can be of an origin of the same or different species as the naturally occurring protein. In general, variant polypeptides have a sequence that has at least about 80%, usually at least about 90%, and more usually at least about 98% sequence identity with a differentially expressed polypeptide of the invention, as measured by BLAST using the parameters described above. The variant polypeptides can be naturally or non-naturally glycosylated, i.e., the polypeptide has a glycosylation pattern that differs from the glycosylation pattern found in the corresponding naturally occurring protein.

[0084] In general, the polypeptides of the subject invention are provided in a non-naturally occurring environment, e.g. are separated from their naturally occurring environment. In certain embodiments, the subject protein is present in a composition that is enriched for the protein as compared to a control. As such, purified polypeptide is provided, where by purified is meant that the protein is present in a composition that is substantially free of non-differentially expressed polypeptides, where by substantially free is meant that less than 90%, usually less than 60% and more usually less than 50% of the composition is made up of non-differentially expressed polypeptides.

[0085] Also within the scope of the invention are variants; variants of polypeptides include mutants, fragments, and fusions. Mutants can include amino acid substitutions, additions or deletions. The amino acid substitutions can be conservative amino acid substitutions or substitutions to eliminate non-essential amino acids, such as to alter a glycosylation site, a phosphorylation site or an acetylation site, or to minimize misfolding by substitution or deletion of one or more cysteine residues that are not necessary for function. Conservative amino acid substitutions are those that preserve the general charge, hydrophobicity/hydrophilicity, and/or steric bulk of the amino acid substituted.

[0086] Variants also include fragments of the polypeptides disclosed herein, particularly biologically active fragments and/or fragments corresponding to functional domains. Fragments of interest will typically be at least about 10 amino acids (aa) to at least about 15 aa in length, usually at least about 50 aa in length, and can be as long as 300 aa in length or longer, but will usually not exceed about 1000 aa in length, where the fragment will have a stretch of amino acids that is identical to a polypeptide encoded by a nucleic acid having a sequence of any SEQ ID NOS: 1-900, or a homolog thereof.

[0087] The protein variants described herein are encoded by nucleic acids that are within the scope of the invention. The genetic code can be used to select the appropriate codons to construct the corresponding variants.

LIBRARIES AND ARRAYS

[0088] In general, a library of biopolymers is a collection of sequence information, which information is provided in either biochemical form (e.g., as a collection of nucleic acid or polypeptide molecules), or in electronic form (e.g., as a collection of genetic sequences stored in a computer-readable form, as in a computer system and/or as part of a computer program). The term biopolymer, as used herein, is intended to refer to polypeptides, nucleic acids, and derivatives thereof, which molecules are characterized by the possession of genetic sequences either corresponding to, or encoded by, the sequences set forth in the provided sequence list (seqlist). The sequence information can be used in a variety of ways, e.g., as a resource for gene discovery, as a representation of sequences expressed in a selected cell type, e.g. cell type markers, etc.

[0089] The nucleic acid libraries of the subject invention include sequence information of a plurality of nucleic acid sequences, where at least one of the nucleic acids has a sequence of any of SEQ ID NOS: 1-900. By plurality is meant one or more, usually at least 2 and can include up to all of SEQ ID NOS: 1-900. The length and number of nucleic acids in the library will vary with the nature of the library, e.g., if the library is an oligonucleotide array, a cDNA array, a computer database of the sequence information, etc.

[0090] Where the library is an electronic library, the nucleic acid sequence information can be present in a variety of media. “Media” refers to a manufacture, other than an isolated nucleic acid molecule, that contains the sequence information of the present invention. Such a manufacture provides the sequences or a subset thereof in a form that can be examined by means not directly applicable to the sequence as it exists in a nucleic acid. For example, the nucleotide sequence of the present invention, e.g. the nucleic acid sequences of any of the nucleic acids of SEQ ID NOS: 1-900, can be recorded on computer readable media, e.g. any medium that can be read and accessed directly by a computer. Such media include, but are not limited to: magnetic storage media, such as a floppy disc, a hard disc storage medium, and a magnetic tape; optical storage media such as CD-ROM; electrical storage media such as RAM and ROM; and hybrids of these categories such as magnetic/optical storage media. One of skill in the art can readily appreciate how any of the presently known computer readable mediums can be used to create a manufacture comprising a recording of the present sequence information. “Recorded” refers to a process for storing information on computer readable medium, using any such methods as known in the art. Any convenient data storage structure can be chosen, based on the means used to access the stored information. A variety of data processor programs and formats can be used for storage, e.g. word processing text file, database format, etc. In addition to the sequence information, electronic versions of the libraries of the invention can be provided in conjunction or connection with other computer-readable information and/or other types of computer-readable files (e.g., searchable files, executable files, etc, including, but not limited to, for example, search program software, etc.) By providing the nucleotide sequence in computer readable form, the information can be accessed for a variety of purposes. Computer software to access sequence information is publicly available. For example, the BLAST (Altschul et al., supra.) and BLAZE (Brutlag et al. Comp. Chem. (1993) 17:203) search algorithms on a Sybase system can be used identify open reading frames (ORFs) within the genome that contain homology to ORFs from other organisms.

[0091] As used herein, “a computer-based system” refers to the hardware means, software means, and data storage means used to analyze the nucleotide sequence information of the present invention. The minimum hardware of the computer-based systems of the present invention comprises a central processing unit (CPU), input means, output means, and data storage means. A skilled artisan can readily appreciate that any one of the currently available computer-based system are suitable for use in the present invention. The data storage means can comprise any manufacture comprising a recording of the present sequence information as described above, or a memory access means that can access such a manufacture.

[0092] “Search means” refers to one or more programs implemented on the computer-based system, to compare a target sequence or target structural motif with the stored sequence information. Search means are used to identify fragments or regions of the genome that match a particular target sequence or target motif. A variety of known algorithms are publicly known and commercially available, e.g. MacPattern (EMBL), BLASTN, BLASTX (NCBI) and tBLASTX. A “target sequence” can be any DNA or amino acid sequence of six or more nucleotides or two or more amino acids, preferably from about 10 to 100 amino acids or from about 30 to 300 nucleotide residues.

[0093] A “target structural motif,” or “target motif,” refers to any rationally selected sequence or combination of sequences in which the sequence(s) are chosen based on a three-dimensional configuration that is formed upon the folding of the target motif, or on consensus sequences of regulatory or active sites. There are a variety of target motifs known in the art. Protein target motifs include, but arc not limited to, enzyme active sites and signal sequences. Nucleic acid target motifs include, but are not limited to, hairpin structures, promoter sequences and other expression elements such as binding sites for transcription factors.

[0094] A variety of structural formats for the input and output means can be used to input and output the information in the computer-based systems of the present invention. One format for an output means ranks fragments of the genome possessing varying degrees of homology to a target sequence or target motif. Such presentation provides a skilled artisan with a ranking of sequences and identifies the degree of sequence similarity contained in the identified fragment.

[0095] A variety of comparing means can be used to compare a target sequence or target motif with the data storage means to identify sequence fragments of the genome. A skilled artisan can readily recognize that any one of the publicly available homology search programs can be used as the search means for the computer based systems of the present invention.

[0096] As discussed above, the “library” of the invention also encompasses biochemical libraries of the nucleic acids of SEQ ID NOS: 1-900, e.g., collections of nucleic acids representing the provided nucleic acids. The biochemical libraries can take a variety of forms, e.g. a solution of cDNAs, a pattern of probe nucleic acids stably bound to a surface of a solid support (microarray) and the like. By array is meant an article of manufacture that has a solid support or substrate with one or more nucleic acid targets on one of its surfaces, where the number of distinct nucleic may be in the hundreds, thousand, or tens of thousands. Each nucleic acid will comprise at 18 nt and often at least 25 nt, and often at least 100 to 1000 nucleotides, and may represent up to a complete coding sequence or cDNA. A variety of different array formats have been developed and are known to those of skill in the art. The arrays of the subject invention find use in a variety of applications, including gene expression analysis, drug screening, mutation analysis and the like, as disclosed in the above-listed exemplary patent documents.

[0097] In addition to the above nucleic acid libraries, analogous libraries of polypeptides are also provided, where the where the polypeptides of the library will represent at least a portion of the polypeptides encoded by SEQ ID NOS: 1-900.

GENETICALLY ALTERED CELLS AND TRANSGENICS

[0098] The subject nucleic acids can be used to create genetically modified and transgenic organisms, usually plant cells and plants, which may be monocots or dicots. The term transgenic, as used herein, is defined as an organism into which an exogenous nucleic acid construct has been introduced, generally the exogenous sequences are stably maintained in the genome of the organism. Of particular interest are transgenic organisms where the genomic sequence of germ line cells has been stably altered by introduction of an exogenous construct.

[0099] Typically, the transgenic organism is altered in the genetic expression of the introduced nucleotide sequences as compared to the wild-type, or unaltered organism. For example, constructs that provide for over-expression of a targeted sequence, sometimes referred to as a “knock-in”, provide for increased levels of the gene product. Alternatively, expression of the targeted sequence can be down-regulated or substantially eliminated by introduction of a “knock-out” construct, which may direct transcription of an anti-sense RNA that blocks expression of the naturally occurring mRNA, by deletion of the genomic copy of the targeted sequence, etc.

[0100] In one method, large numbers of genes are simultaneously introduced in order to explore the genetic basis of complex traits, for example by making plant artificial chromosome (PLAC) libraries. The centromeres in Arabidopsis have been mapped and current genome sequencing efforts will extend through these regions. Because Arabidopsis telomeres are very similar to those in yeast one may use a hybrid sequence of alternating plant and yeast sequences that function in both types of organisms, developing yeast artificial chromosome-PLAC libraries, and then introducing them into a suitable plant host to evaluate the phenotypic consequences. By providing a defined chromosomal environment for cloned genes, the use of PLACs may also enhance the ability to produce transgenic plants with defined levels of gene expression.

[0101] It has been found in many organisms that there is significant redundancy in the representation of genes in a genome. That is, a particular gene function is likely by represented by multiple copies of similar coding sequences in the genome. These copies are typically conserved in the amino acid sequence, but may diverge in the sequence of non-translated sequences, and in their codon usage. In order to knock out a particular genetic function in an organism, it may not be sufficient to delete a genomic copy of a single gene. In such cases it may be preferable to achieve a genetic knock-out with an anti-sense construct, particularly where the sequence is aligned with the coding portion of the mRNA.

[0102] Methods of transforming plant cells are well-known in the art, and include protoplast transformation, tungsten whiskers (Coffee et al., U.S. Pat. No. 5,302,523, issued Apr. 12, 1994), directly by microorganisms with infectious plasmids, use of transposons (U.S. Pat. No. 5,792,294), infectious viruses, the use of liposomes, microinjection by mechanical or laser beam methods, by whole chromosomes or chromosome fragments, electroporation, silicon carbide fibers, and microprojectile bombardment.

[0103] For example, one may utilize the biolistic bombardment of meristem tissue, at a very early stage of development, and the selective enhancement of transgenic sectors toward genetic homogeneity, in cell layers that contribute to germline transmission. Biolistics-mediated production of fertile, transgenic maize is described in Gordon-Kamm et al. (1990), Plant Cell 2:603; Fromm et al. (1990) Bio/Technology 8: 833, for example. Alternatively, one may use a microorganism, including but not limited to, Agrobacterium tumefaciens as a vector for transforming the cells, particularly where the targeted plant is a dicotyledonous species. See, for example, U.S. Pat. No. 5,635,381. Leung et al. (1990) Curr. Genet. 17(5):409-11 describe integrative transformation of three fertile hermaphroditic strains of Arabidopsis thaliana using plasmids and cosmids that contain an E. coli gene linked to Aspergillus nidulans regulatory sequences.

[0104] Preferred expression cassettes for cereals may include promoters that are known to express exogenous DNAs in corn cells. For example, the Adhl promoter has been shown to be strongly expressed in callus tissue, root tips, and developing kernels in corn. Promoters that are used to express genes in corn include, but are not limited to, a plant promoter such as the, CaMV 35S promoter (Odell et al., Nature, 313, 810 (1985)), or others such as CaMV 19S (Lawton et al., Plant Mol. Biol., 9, 31F (1987)), nos (Ebert et al., PNAS U.S.A., 84, 5745 (1987)), Adh (Walker et al., PNAS U.S.A., 84, 6624 (1987)), sucrose synthase (Yang et al., PNAS U.S.A., 87, 4144 (1990)), .alpha.-tubulin, ubiquitin, actin (Wang et al., Mol. Cell. Biol., 12, 3399 (1992)), cab (Sullivan et al., Mol. Gen. Genet, 215, 431 (1989)), PEPCase (Hudspeth et al., Plant Mol. Biol., 12, 579 (1989)), or those associated with the R gene complex (Chandler et al., The Plant Cell, 1, 1175 (1989)). Other promoters useful in the practice of the invention are known to those of skill in the art.

[0105] Tissue-specific promoters, including but not limited to, root-cell promoters (Conkling et al., Plant Physiol., 93, 1203 (1990)), and tissue-specific enhancers (Fromm et al., The Plant Cell, 1, 977 (1989)) are also contemplated to be particularly useful, as are inducible promoters such as water-stress-, ABA- and turgor-inducible promoters (Guerrero et al., Plant Molecular Biology, 15, 11-26)), and the like.

[0106] Regulating and/or limiting the expression in specific tissues may be functionally accomplished by introducing a constitutively expressed gene (all tissues) in combination with an antisense gene that is expressed only in those tissues where the gene product is not desired. Expression of an antisense transcript of this preselected DNA segment in an rice grain, using, for example, a zein promoter, would prevent accumulation of the gene product in seed. Hence the protein encoded by the preselected DNA would be present in all tissues except the kernel.

[0107] Alternatively, one may wish to obtain novel tissue-specific promoter sequences for use in accordance with the present invention. To achieve this, one may first isolate cDNA clones from the tissue concerned and identify those clones which are expressed specifically in that tissue, for example, using Northern blotting or DNA microarrays. Ideally, one would like to identify a gene that is not present in a high copy number, but which gene product is relatively abundant in specific tissues. The promoter and control elements of corresponding genomic clones may then be localized using the techniques of molecular biology known to those of skill in the art. Alternatively, promoter elements can be identified using enhancer traps based on T-DNA and/or transposon vector systems (see, for example, Campisi et al. (1999) Plant J. 17:699-707; Gu et al. (1998) Development 125:1509-1517).

[0108] In some embodiments of the present invention expression of a DNA segment in a transgenic plant will occur only in a certain time period during the development of the plant. Developmental timing is frequently correlated with tissue specific gene expression. For example, in corn expression of zein storage proteins is initiated in the endosperm about 15 days after pollination.

[0109] Ultimately, the most desirable DNA segments for introduction into a plant genome may be homologous genes or gene families which encode a desired trait (e.g., increased disease resistance) and which are introduced under the control of novel promoters or enhancers, etc., or perhaps even homologous or tissue-specific (e.g., root-, grain- or leaf-specific) promoters or control elements.

[0110] The genetically modified cells are screened for the presence of the introduced genetic material. The cells may be used in functional studies, drug screening, etc., e.g. to study chemical mode of action, to determine the effect of a candidate agent on pathogen growth, infection of plant cells, etc.

[0111] The modified cells are useful in the study of genetic function and regulation, for alteration of the cellular metabolism, and for screening compounds that may affect the biological function of the gene or gene product. For example, a series of small deletions and/or substitutions may be made in the host's native gene to determine the role of different domains and motifs in the biological function. Specific constructs of interest include anti-sense, as previously described, which will reduce or abolish expression, expression of dominant negative mutations, and over-expression of genes.

[0112] Where a sequence is introduced, the introduced sequence may be either a complete or partial sequence of a gene native to the host, or may be a complete or partial sequence that is exogenous to the host organism, e.g., an A. thaliana sequence inserted into wheat plants. A detectable marker, such as aldA, lac Z, etc. may be introduced into the locus of interest, where upregulation of expression will result in an easily detected change in phenotype.

[0113] One may also provide for expression of the gene or variants thereof in cells or tissues where it is not normally expressed, at levels not normally present in such cells or tissues, or at abnormal times of development, during sporulation, etc. By providing expression of the protein in cells in which it is not normally produced, one can induce changes in cell behavior.

[0114] DNA constructs for homologous recombination will comprise at least a portion of the provided gene or of a gene native to the species of the host organism, wherein the gene has the desired genetic modification(s), and includes regions of homology to the target locus (see Kempin et al., (1997) Nature 389:802-803). DNA constructs for random integration or episomal maintenance need not include regions of homology to mediate recombination. Conveniently, markers for positive and negative selection are included. Methods for generating cells having targeted gene modifications through homologous recombination are known in the art.

[0115] Embodiments of the invention provide processes for enhancing or inhibiting synthesis of a protein in a plant by introducing a provided nucleic acids sequence into a plant cell, where the nucleic acid comprises sequences encoding a protein of interest. For example, enhanced resistance to pathogens may be achieved by inserting a nucleic acid encoding an activator in a vector downstream from a promoter sequence capable of driving constitutive high-level expression in a plant cell. When grown into plants, the transgenic plants exhibit increased synthesis of resistance proteins, and increased resistance to pathogens.

[0116] Other embodiments of the invention provide processes for enhancing or inhibiting synthesis of a tolerance factor in a plant by introducing a nucleic acid of the invention into a plant cell, where the nucleic acid comprises sequences encoding a tolerance factor. For example, enhanced tolerance to an environmental stress may be achieved by inserting a nucleic acid encoding an activator in a vector downstream from a promoter sequence capable of driving constitutive high-level expression in a plant cell. When grown into plants, the transgenic plants exhibit increased synthesis of tolerance proteins, and increased tolerance to environmental stress.

[0117] Factors which are involved, directly or indirectly in biosynthetic pathways whose products are of commercial, nutritional, or medicinal value include any factor, usually a protein or peptide, which regulates such a biosynthetic pathway (e.g., an activator or repressor); which is an intermediate in such a biosynthetic pathway; or which is a product that increases the nutritional value of a food product; a medicinal product; or any product of commercial value and/or research interest. Plant and other cells may be genetically modified to enhance a trait of interest, by upregulating or down-regulating factors in a biosynthetic pathway.

SCREENING ASSAYS

[0118] The polypeptides encoded by the provided nucleic acid sequences, and cells genetically altered to express such sequences, are useful in a variety of screening assays to determine effect of candidate inhibitors, activators., or modifiers of the gene product. One may determine what insecticides, fungicides and the like have an enhancing or synergistic activity with a gene. Alternatively, one may screen for compounds that mimic the activity of the protein. Similarly, the effect of activating agents may be used to screen for compounds that mimic or enhance the activation of proteins. Candidate inhibitors of a particular gene product are screened by detecting decreased from the targeted gene product.

[0119] The screening assays may use purified target macromolecules to screen large compound libraries for inhibitory drugs; or the purified target molecule may be used for a rational drug design program, which requires first determining the structure of the macromolecular target or the structure of the macromolecular target in association with its customary substrate or ligand. This information is then used to design compounds which must be synthesized and tested further. Test results are used to refine the molecular models and drug design process in an iterative fashion until a lead compound emerges.

[0120] Drug screening may be performed using an in vitro model, a genetically altered cell, or purified protein. One can identify ligands or substrates that bind to, modulate or mimic the action of the target genetic sequence or its product. A wide variety of assays may be used for this purpose, including labeled in vitro protein-protein binding assays, electrophoretic mobility shift assays, immunoassays for protein binding, and the like. The purified protein may also be used for determination of three-dimensional crystal structure, which can be used for modeling intermolecular interactions.

[0121] Where the nucleic acid encodes a factor involved in a biosynthetic pathway, as described above, it may be desirable to identify factors, e.g., protein factors, which interact with such factors. One can identify interacting factors, ligands, substrates that bind to, modulate or mimic the action of the target genetic sequence or its product. A wide variety of assays may be used for this purpose, including labeled in vitro protein-protein binding assays, electrophoretic mobility shift assays, immunoassays for protein binding, and the like. In vivo assays for protein-protein interactions in E. coli and yeast cells are also well-established (see Hu et al. (2000) Methods 20:80-94; and Bai and Elledge (1997) Methods Enzymol. 283:141-156).

[0122] The purified protein may also be used for determination of three-dimensional crystal structure, which can be used for modeling intermolecular interactions. It may also be of interest to identify agents that modulate the interaction of a factor identified as described above with a factor encoded by a nucleic acid of the invention. Drug screening can be performed to identify such agents. For example, a labeled in vitro protein-protein binding assay can be used, which is conducted in the presence and absence of an agent being tested.

[0123] The term “agent” as used herein describes any molecule, e.g. protein or pharmaceutical, with the capability of altering or mimicking a physiological function. Generally a plurality of assay mixtures are run in parallel with different agent concentrations to obtain a differential response to the various concentrations. Typically, one of these concentrations serves as a negative control, Le. at zero concentration or below the level of detection.

[0124] Candidate agents encompass numerous chemical classes, though typically they are organic molecules, preferably small organic compounds having a molecular weight of more than 50 and less than about 2,500 daltons. Candidate agents comprise functional groups necessary for structural interaction with proteins, particularly hydrogen bonding, and typically include at least an amine, carbonyl, hydroxyl or carboxyl group, preferably at least two of the functional chemical groups. The candidate agents often comprise cyclical carbon or heterocyclic structures and/or aromatic or polyaromatic structures substituted with one or more of the above functional groups. Candidate agents are also found among biomolecules including peptides, saccharides, fatty acids, steroids, purines, pyrimidines, derivatives, structural analogs or combinations thereof.

[0125] Candidate agents are obtained from a wide variety of sources including libraries of synthetic or natural compounds. For example, numerous means are available for random and directed synthesis of a wide variety of organic compounds and biomolecules, including expression of randomized oligonucleotides and oligopeptides. Alternatively, libraries of natural compounds in the form of bacterial, fungal, plant and organism extracts are available or readily produced. Additionally, natural or synthetically produced libraries and compounds are readily modified through conventional chemical, physical and biochemical means, and may be used to produce combinatorial libraries. Known pharmacological agents may be subjected to directed or random chemical modifications, such as acylation, alkylation, esterification, amidification, etc. to produce structural analogs.

[0126] Where the screening assay is a binding assay, one or more of the molecules may be joined to a label, where the label can directly or indirectly provide a detectable signal. Various labels include radioisotopes, fluorescers, chemiluminescers, enzymes, specific binding molecules, particles, e.g. magnetic particles, and the like. Specific binding molecules include pairs, such as biotin and streptavidin, digoxin and antidigoxin etc. For the specific binding members, the complementary member would normally be labeled with a molecule that provides for detection, in accordance with known procedures.

[0127] A variety of other reagents may be included in the screening assay. These include reagents like salts, neutral proteins, e.g. albumin, detergents, etc that are used to facilitate optimal protein-protein binding and/or reduce non-specific or background interactions. Reagents that improve the efficiency of the assay, such as protease inhibitors, nuclease inhibitors, anti-microbial agents, etc. may be used. The mixture of components are added in any order that provides for the requisite binding. Incubations are performed at any suitable temperature, typically between 4 and 40°C. Incubation periods are selected for optimum activity, but may also be optimized to facilitate rapid high-throughput screening. Typically between 0.1 and 1 hours will be sufficient.

[0128] The compounds having the desired biological activity may be administered in an acceptable carrier to a host. The active agents may be administered in a variety of ways. Depending upon the manner of introduction, the compounds may be formulated in a variety of ways. The concentration of therapeutically active compound in the formulation may vary from about 0.01-100 wt.%.

[0129] It must be noted that as used herein and in the appended claims, the singular forms “a”, “and”, and “the” include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to “a complex” includes a plurality of such complexes and reference to “the formulation” includes reference to one or more formulations and equivalents thereof known to those skilled in the art, and so forth.

[0130] Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood to one of ordinary skill in the art to which this invention belongs. Although any methods, devices and materials similar or equivalent to those described herein can be used in the practice or testing of the invention, the preferred methods, devices and materials are now described.

[0131] All publications mentioned herein are incorporated herein by reference for the purpose of describing and disclosing, for example, the methods and methodologies that are described in the publications which might be used in connection with the presently described invention. The publications discussed above and throughout the text are provided solely for their disclosure prior to the filing date of the present application. Nothing herein is to be construed as an admission that the inventors are not entitled to antedate such disclosure by virtue of prior invention.

[0132] The following examples are put forth so as to provide those of ordinary skill in the art with a complete disclosure and description of how to make and use the subject invention, and are not intended to limit the scope of what is regarded as the invention. Efforts have been made to ensure accuracy with respect to the numbers used (e.g. amounts, temperature, concentrations, etc.) but some experimental errors and deviations should be allowed for. Unless otherwise indicated, parts are parts by weight, molecular weight is average molecular weight, temperature is in degrees Celsius, and pressure is at or near atmospheric.

EXPERIMENTAL Cloning and Characterization of Arabidopsis thaliana Genes.

[0133] Following DNA isolation, sequencing was performed using the Dye Primer Sequencing protocol, below. The sequencing reactions were loaded by hand onto a 48 lane ABI 377 and run on a 36 cm gel with the 36E-2400 run module and extraction. Gel analysis was performed with ABI software.

[0134] The Phred program was used to read the sequence trace from the ABI sequencer, call the bases and produce a sequence read and a quality score for each base call in the sequence., (Ewing et al. (1998) Genome Research 8:175-185; Ewing and Green (1998) Genome Research 8:186-194.) PolyPhred may be used to detect single nucleotide polymorphisms in sequences (Kwok et al. (1994) Genomics 25:615-622; Nickerson et al. (1997) Nucleic Acids Research 25(14):2745-2751.)

[0135] MicroWave Plasmid Protocol: Fill Beckman 96 deep-well growth blocks with 1 ml of TB containing 50 μg of ampicillin per ml. Inoculate each well with a colony picked with a toothpick or a 96-pin tool from a glycerol stock plate. Cover the blocks with a plastic lid and tape at two ends to hold lid in place. Incubate overnight (16-24 hours depending on the host stain) at 37° C. with shaking at 275 rpm in a New Brunswick platform shaker. Pellet cells by centrifugation for 20 minutes at 3250 rpm in a Beckman GS-R6K, decant TB and freeze pelleted cell in the 96 well block. Thaw blocks on the bench when ready to continue. Prepare the MW-Tween20 solution For four blocks: For 16 blocks: 50 ml STET/TWEEN20 200 ml STET/TWEEN 2 tubes RNAse (10 mg/ml, 600 ulea) 8 tubes RNAse 1 tube lysozyme (25 mg) 4 tubes lysozyme

[0136] Pipette RNAse and Lysozyme into the corner of a beaker. Add Tween 20 solution and swirl to mix completely. Use the Multidrop (or Biohit) to add 25 ul of sterile H₂O (from the L size autoclaved bottles) to each well. Resuspend the pellets by vortexing on setting 10 of the platform vortexer. Check pellets after 4 min. and repeat as necessary to resuspend completely. Use the multidrop to add 70 μl of the freshly prepared MW-Tween 20 solution to each well. Vortex at setting 6 on the platform vortex for 15 seconds. Do not cause frothing.

[0137] Incubate the blocks at room temperature for 5 min. Place two blocks at a time in the microwave (1000 Watts) with the tape (placed on the H1 to H12 side of the block) facing away from each other and turn on at full power for 30 seconds. Rotate the blocks so that the tapes face towards each other and turn on at full power again for 30 seconds.

[0138] Immediately remove the blocks from the microwave and add 300 μl of sterile ice cold H₂O with the Multidrop. Seal the blocks with foil tape and place them in an H₂O/ice bath.

[0139] Vortex the blocks on 5 for 15 seconds and leave them in the H₂O/Ice bath. Return to step 7 until all the blocks are in the ice water bath. Incubate the blocks for 15 minutes on ice. Spin the blocks for 30 minutes in the Beckman GS-6KR with GH3.8 rotor with Microplus carrier at 3250 rpm.

[0140] Transfer 100 μl of the supernatant to Corning/Costar round bottom 96 well trays. Cover with foil and put into fridge if to be sequenced right away. If not to be sequenced in the next day, freeze them at −20°C.

[0141] Dye Primer Sequencing: Spin down the DP brew trays and DNA template by pulsing in the Beckman GS-6KR with GH3.8 rotor with Microplus carrier. Big Dye Primer reaction mix trays (one 96 well cycleplate (Robbins) for each nucleotide), 3 microliters of reaction mix per well.

[0142] Use twelve channel pipetter (Costar) to add 2 μl of template to one each G,A,T,C, trays for each template plate. Pulse again to get both the reaction mix and template into the bottom of the cycle plate and put them into the MJ Research DNA Tetrad (PTC-225).

[0143] Start program Dye-Primer. Dye-primer is:

[0144] 96° C., 1 min 1 cycle

[0145] 96° C., 10 sec.

[0146] 55° C., 5 sec.

[0147] 70° C., 1 min 15 cycles

[0148] 96° C., 10 sec.

[0149] 70° C., 1 min. 15 cycles

[0150] 4° C. soak

[0151] When done cycling, using the Robbins Hydra 290 add 100 μl of 100% ethanol to the A reaction cycle plate and pool the contents of all four cycle plates into the appropriate well.

[0152] To perform ethanol precipitation: Use Hydra program 4 to add 100 μl 100% ethanol to each A tray. Use Hydra program 5 to transfer the ethanol and therefore combine the samples from plate to plate. Once the G, A, T, and C trays of each block are mixed, spin for 30 minutes at 3250 in the Beckman. Pour off the ethanol with a firm shake and blot on a paper towel before drying in the speed vac (˜10 minutes or until dry). If ready to load add 3 μl dye and denature in the oven at 95° C. for ˜5 minutes and load 2 μl. If to store, cover with tape and store at −20° C.

[0153] Common Solutions

[0154] Terrific Broth

[0155] Per liter:

[0156] 900 ml H₂O

[0157] 12 g bacto tryptone

[0158] 24 g bacto-yeast extract

[0159] 4 ml glycerol

[0160] Shake until dissolved and then autoclave. Allow the solution to cool to 60° C. or less and then add 100 ml of sterile 0.17M KH₂PO₄, 0.72M K₂HPO₄ (in the hood w/ sterile technique).

[0161] 0.17M KH₂PO₄, 0.72M K₂HPO₄

[0162] Dissolve 2.31 g of KH₂PO₄ and 12.54 g of K₂HPO₄ in 90 ml of H₂O.

[0163] Adjust volume to 100 ml with H₂O and autoclave.

[0164] Sequence loading Dye

[0165] 20 ml deionized formamide

[0166] 3.6 ml dH₂O

[0167] 400 μl 0.5M EDTA, pH 8.0

[0168] 0.2 g Blue Dextran

[0169] *Light sensitive, cover in foil or store in the dark.

[0170] STET/TWEEN

[0171] 10 ml 5M NaCI

[0172] 5 ml 1M Tris, pH 8.0

[0173] 1 ml 0.5M EDTA., pH 8.0

[0174] 25 ml Tween20

[0175] Bring volume to 500 ml with H₂O

[0176] The sequencing reactions are run on an ABI 377 sequencer per manufacturer's' instructions. The sequencing information obtained each run are analyzed as follows.

[0177] Sequencing reads are screened for ribosomal., mitochondrial., chloroplast or human sequence contamination. In good sequences, vector is marked by x's. These sequences go into biolims regardless of whether or not they pass the criteria for a ‘good’ sequence. This criteria is >=100 bases with phred score of >=20 and 15 of these bases adjacent to each other.

[0178] Sequencing reads that pass the criteria for good sequences are downloaded for assembly into consensus sequences (contigs). The program Phrap (copyrighted by Phil Green at University of Washington, Seattle, Wash.) utilizes both the Phred sequence information and the quality calls to assemble the sequencing reads. Parameters used with Phrap are determined empirically to minimize assembly of chimeric sequences and maximize differential detection of closely related members of gene families. The following parameters are used with the Phrap program to perform the assembly: Penalty −6 Penalty for mismatches (substitutions) Minmatch 40 Minimum length of matching sequence to use in assembly of reads Trim 0 penalty used for identifying degenerate sequence penalty at beginning and end of read. Minscore 80 Minimum alignment score

[0179] Results from the Phrap analysis yield either contigs consisting of a consensus of two or more overlapping sequence reads, or singlets that are non-overlapping .

[0180] The contig and singlets assembly are further analyzed to eliminate low quality sequence utilizing a program to filter sequences based on quality scores generated by the Phred program. The threshold quality for “high quality” base calls is 20. Sequences with less than 50 contiguous high quality bases calls at the beginning of the sequence, and also at the end of the sequence are discarded. Additionally, the maximum allowable percentage of “low quality base calls in the final sequence is 2%, otherwise the sequence is discarded.

[0181] The stand-alone BLAST programs and Genbank databases are downloaded from NCBI for use on secure servers at the Paradigm Genetics, Inc. site. The sequences from the assembly are compared to the GenBank NR database downloaded from NCBI using the gapped version (2.0) of BLASTX. BLASTX translates the DNA sequence in all six reading frames and compares it to an amino acid database. Low complexity sequences are filtered in the query sequence. (Altschul et al. (1997) Nucleic Acids Res 25(17):3389-402).

[0182] Genbank sequences found in the BLASTX search with an E Value of less than 1e⁻¹⁰ are considered to be highly similar, and the Genbank definition lines are used to annotate the query sequences.

[0183] When no significantly similar sequences are found as a result of the BLASTX search, the query sequences are compared with the PROSITE database (Bairoch, A. (1992) PROSITE: A dictionary of sites and patterns in proteins. Nucleic Acids Research 20:2013-2018. ) to locate functional motifs.

[0184] Query sequences are first translated in six reading frames using the Wisconsin GCG pepdata program (Wisconsin Package Version 10.0, Genetics Computer Group (GCG), Madison, Wis., USA.). The Wisconsin GCG motifs program (Wisconsin Package Version 10.0, Genetics Computer Group (GCG) Madison, Wis., USA.) was used to locate motifs in the peptide sequence, with no mismatches allowed. Motif names from the PROSITE results are used to annotate these query sequences.

1 900 1 427 DNA Arabidopsis thaliana misc_feature (1)...(427) n = A,T,C or G 1 acggtatcga taagcttgat atcgaattcg cggccgcgcg gcatgattga aggatttata 60 tggtcaccaa gaagcggtga caccaataac caacccgata gttggcctct tgaagatggt 120 cctcattctg atttcacggg acctacctcg gggtgcacag cgtgtgtagc tcttattaaa 180 gataagaagc tctttgttgc aaatgccggt gactcacgtt gtgtgatatc aagaaagagt 240 caggcttaca atctttctaa agatcacaag cctgatcttg aagttgaaaa agaaaggata 300 ttgnangctg gtggctttat tcacgctggg agaatcaatg gaagcttgaa tctgacaaga 360 gccattggtg atatggagtt caagcagaat aagtttttac catctgaaaa gcaaatggtt 420 actgctg 427 2 206 DNA Arabidopsis thaliana 2 agataatgaa catatttctg tccctgaagt ttttgctctc ttcagttgca agctccccta 60 tttcggtttg gaaacgtctg aggagttcaa tagcgatatt tctgaactcg ttttctcgtc 120 ctttcatgct cacaatcacc ttaaccttgt caccatcttg caagaacttt tgggcagccc 180 ttagacgaac ggaataatca tgctga 206 3 369 DNA Arabidopsis thaliana misc_feature (1)...(369) n = A,T,C or G 3 cggtatcgat aagcttgata tcgaattcgc ggccgcctcg gtgaccatat tcaaaacttt 60 cccacgttaa ttctctcttc tttgttttgt ttcagattca ttacttttct ccaaaaaact 120 ttcttcaaga tctgttcttt taaataatta tggcggaaga acatcgatgc gagacgcctg 180 aaggtcaccg tctctgcgtt aacaactgcg gtttcttcgg aagctcagcg acaatgaatc 240 tatgttcaaa ctgttacggc gatctctgtc tcnaacaaca acaacaagct tccatgaaat 300 caaccgtcga atcatctctc tctccggtga tcgcacctgt tctcgaaaac tacgcggcgg 360 agttagaga 369 4 430 DNA Arabidopsis thaliana 4 ccatggcgtt agaactatgg caaactctca aagaagcaat ccatgcttac acaggtcttt 60 ctcctgttgt cttcttcact gctctagctc tcgccttcgc catttaccaa gtcatctcag 120 gctggtttgc ctcgccgttc gatgatgtta accgacatca gagagctaga tccttggctc 180 aagaggagga gccaccgatt cctcagcctg ttcaagtcgg tgagatcacg gaggaggagc 240 ttaaacagta cgatggctct gatcctcaaa agccccttct tatggctatc aaacatcaga 300 tctatgatgt tacacaaagc aggatgttct acggaccagg aggaccatat gctttgtttg 360 cagggaaaga cgctagccga gctcttgcaa agatgtcatt tgaggagaaa gacttgactt 420 gggatgtctc 430 5 106 DNA Arabidopsis thaliana 5 cggtatcgat aagcttgata tcgaattcgc ggccgcgcac taattaatca tgctacatac 60 atagtcaaag ttcgtagtaa gtagacttag aaatagttac cgttag 106 6 271 DNA Arabidopsis thaliana 6 agacttgacg ttgcaaatgc cgttaatcct ctcccaaagg aggaagacaa gaaacttgtt 60 atagtgaaga cgcccaatgc agtaaatccg ctcgtatggg attattctcc acttctcacc 120 attgatacct gggagcacgc ttactatctg gattttgaga accgaagagc tgaatacata 180 aatacattca tggaaaagct tgtgtcatgg gaaactgtaa gcacaaggtt ggaatccgca 240 attgctcgag cagtgcaaag agaacaagaa g 271 7 322 DNA Arabidopsis thaliana misc_feature (1)...(322) n = A,T,C or G 7 tttttttaaa ccaaatagat aggatatatt tattcaaatc agaagcacat tagggaacac 60 aagaacagag acaattcaac acatgtaaat gcataaaatc aaacaaactg aaacacaaag 120 acacttcaaa cgaaagaact gagattgaag gaaccaatca tgtttgngng agcagaactc 180 atatctagct caagctgaag cttctgnngc tcaagctgtt gcctcaaaac tggatcttcc 240 acttgctctg ttattgcagc tacttgttcc gtctgctcag tctccaaacc ctgaacagga 300 acagattcag cagtcggtgt ct 322 8 497 DNA Arabidopsis thaliana 8 tttttttttt tttttttaat cataaaaatg aaagcctctt ccataggcag aaacttacac 60 aaacatttga gaattcacta cttagacatt gtctcttgtt actaccgagt taaaaagatt 120 tacattactc tcctcactcc atcaacttct ttgaattgtt ccatctctaa ccaccatacg 180 gtaagccgag cctaagggaa gtgtcggagc tctcggagtc aacaggcgct ccggtagagt 240 ttccggcgtt agtaatagac tccgacgact gtccttcctc gtacacagca gcgttctccg 300 attcagcacc accgtgtgca tgcacattgt tacatatttg catgccaagt cgctcgttct 360 cttccgttag ttgcgttccc tgcaaaaatc aagacaaaac atatcattaa gttctctagc 420 taagtatttg cattttgtgt ttttagtggc accatgtgtt ttgaatttct ctagagatca 480 actaactacg aatgagc 497 9 347 DNA Arabidopsis thaliana 9 ttcatttacg taaacacgac agagtcaata cttgtgacga tgagcatcaa tatttactac 60 tggcaaagta acttaaacaa aaacaaaaac acgggtaagg gtctaaggga aactacttaa 120 accagtaaga aaaccgatca ctatcttcat ttcatttgaa tcaacataag atctcaagat 180 gcgtttgtat ttgcccgggt taccagacca ggtagacttg ttgatgatcg cttaatcttt 240 agccagtact cgttatacac ttttttcctc gacatcttct cgaagaatct actccaacct 300 tccataactc gggtcagcct aacactcttg ggtcttccta taaggta 347 10 216 DNA Arabidopsis thaliana 10 tttttttttt tttttccaga aaaaaggaca agccaataaa acatagattg tctacacaca 60 cacttctctt aaaaatacaa actttgagga aacgagagaa actttgaaag ccatacatac 120 aatacaagag tgttttgatg gagggaggtc ttaaaagtcg agattggagg aaggattcgg 180 gtatccttta tactcaaatt gtttcttgga aaagcc 216 11 329 DNA Arabidopsis thaliana 11 tttttttttt tttttttttt tttttttttg gaggagaaga gctgaatttt tctaattaat 60 aaataaaatt tggagcccat aatttacatt gctatatctc tctatagctc ctggcttcga 120 agtaatttta tcatcgtcca cacaaaaaaa acctatttcg agtatacaaa ctactaatta 180 aatcggaacc actgtgccca cttttctttt ctatcagaga aactaaatca gccagtgctt 240 cgctttgcaa attacatcct gcagtgtagc agacaaggcc aagattctga accgatattg 300 aagagagagt caacaacatc atacaagtg 329 12 145 DNA Arabidopsis thaliana 12 tttttttaaa caaacagtct acacatagac aactcaaagc caacaaatga aacaaaatat 60 aaaacatatg caaagataaa atatttaaaa aaaggtaaca cgttgattat acatgagtat 120 acgtatatct atatatatac gtatt 145 13 318 DNA Arabidopsis thaliana 13 ttttttttta ttaatgattt ttatttttac atgcaaatta tacgactgaa atgttatagg 60 aatagagaca tgtttgtatc acaaaattaa cttatgtagg aaaaacaaat agtataagtc 120 tatcgttccc ctctctgttc aggcgtcaag cctcccttgc cacatttagg acaactcttc 180 ataccaaatc cttgacaatc aaaacatttc cacctctcaa acatatttcc gttcttctta 240 tttttacctg ttcccttgca accgggacat tcaattgctc ctttggctcc acaagtctca 300 caacttttga atatcgaa 318 14 278 DNA Arabidopsis thaliana 14 ataacaaaac tgtatatcaa tataagattt ttttttaatg ttttgactgg caacacgagc 60 caggctcaaa atcaatggga ccaaaaaaat atcaaagaaa cagcggattt tgacagtgtt 120 gtttagcact tttgcatcac ccaaagttct tatttcaaag ttttctcctt tttctcttat 180 cagtctgaga agtcatttaa aaaggaagag tttttaattg atgggttcct ttccgatggc 240 tttctggaca agcccggctt gctctttgac atggaaag 278 15 276 DNA Arabidopsis thaliana 15 ttttttttta gttaaaattt tattgattgc gctagtcatt ttatgtttaa attcctaaaa 60 cctaagataa gccataaaaa aacatctcga aatatgacat caaaaatata acatttaatt 120 ccaaatatca gttctacaat atgggcaata aacattggtg tctagccaag gcaataagca 180 tatggagtga aacttatggg cacatggtag gtgtaccaag gtctcaccct tcttgaaccg 240 gtctagacat atagcacaat cttgttgttc cctaac 276 16 566 DNA Arabidopsis thaliana misc_feature (1)...(566) n = A,T,C or G 16 cttttttttt ttttttttga ttagattatc cgaattttat tctccataca gacaatcaat 60 tattcgaatc ttgatttttt tgttccaagt ataataaagg taacgtcaca tcagaaatct 120 atttatttcc caaacactaa ttgcacaaaa agcaaagtaa aaccactgtg atacaaattc 180 tataaagata aaaaaagttt atgctcaatt aaataacgta aagaaaacta tattgacaaa 240 taaagacaac aacgacggaa ataaacaact aaaaaccact ttctttgatt tcacacaatt 300 ttagtgagtc aaaacgctgt gctgaagtag ctactcacca cattctcaca cagaatttgg 360 agaaccttag cattacttgg cttcacacat cttggcatct taaactgtcc agccgatgaa 420 ccaagcccga gaaaatgttc ttgaatcttc cggaaagttc cttttgcgac aactctcagc 480 tccaaggctc caatagtctt gcatttccgg nnnctaacgt aacccgcatc gatgaatgct 540 cggtctaaac agttgcagca atcttg 566 17 328 DNA Arabidopsis thaliana 17 tttttttttt tttgtttcta ttttttgctt tcctaatcgt catctgaagt ttccggatcg 60 ggtaatttgt ttaaatcaac ccgttcaacg atccattaca cctcttaaac ccttctttac 120 tactacactc cataagatca tcattaatac gataatcact atgattatct acgtaatcat 180 gattaccacg ttgatgttga tgatgatgat gatgacgatt ccctcccgcc cccgccgctt 240 ctaacgcatc cacttgtgct ccaacctccg ccgcttttct ccttatatac gccgccgaca 300 tatctccacc accgttcact cctcctcc 328 18 315 DNA Arabidopsis thaliana misc_feature (1)...(315) n = A,T,C or G 18 ggtatcgata agcttgatat cgaattcgcg gccgccaatc cacccgtgag nnncgatagt 60 tataccaacg tctccattta gctcgaaacg cagcgtctca tagaagttga ctaatgctgc 120 ttttgcagca gaataaagac tcatccgtgg tagaggcaac cagttttcaa ccgatgcatt 180 cacgactatt cggccattcg tctggtgaag gtatggcaac gctacgtatg tcggataaac 240 attcccccag aagtttatgt ccagcaaatg tggaaacaca gtcgtgtcac tcacttcctc 300 aaagtaaaaa gtgtg 315 19 292 DNA Arabidopsis thaliana 19 tttttttttt tttttttttt tttaaatggg tcaagacaac taaaacttga tgaatccaaa 60 aagaaaaaga acaatggaaa ttttggggct aagtactctt tgtttttgtt ttctcagaac 120 agatgaaaca atcttaaagg gttgtttcgt tcatcttcta gacttctttt ttgaggcctt 180 agaggaaggc gcaggtgcat tccctttaga actggccact tggtttgact ttgaagttga 240 aggagctgct tcttgtttat ccttggtcac cgcaccctgc gagccacgga tt 292 20 137 DNA Arabidopsis thaliana 20 tttttttttt tttttttttt tttttataca gagaaggggt tattgtttta caagtttaca 60 acatctacaa agatttcact acatcctgaa accaaaccct tcgtcctaat ttcacaaacc 120 agaccagaca acgacaa 137 21 404 DNA Arabidopsis thaliana 21 tttttttgaa aaatcgccta aaattatgat caaaatagac taaaagaaat acaatgatat 60 ggccactggc cagttctctt tctcacctcc taaaggagcc aagtacaaat tgaattaagg 120 gtagtaaaaa aagaaagtta acaacaaaaa aaatgaattc aagcaatcct acaaaatggc 180 caagttctag tgaaaactaa atttggtaaa aattaacaag tcacactgag gatgtatcga 240 tgagaacatc gtttagcaca tcatcttcgc cattcgccat agcgagcagc tccgcatctc 300 tctcttcctc gttggagaag tctctccttt cgaatttcga gttagcggat ataaagatca 360 gcttttgagc tcgatccacg gctgcgcgtg atcttccatt cgaa 404 22 176 DNA Arabidopsis thaliana 22 tttttttttt tgaacgaaaa aggacataac atgatccgat attaattctc acccaaaaaa 60 aaaaaaaaaa ttaacagaat cacatatgat atgagagtag aaagacacta agcttagtcc 120 aatctcagca tgcaggtttt gtttcttctc atcagaataa atcatcatct cctgta 176 23 238 DNA Arabidopsis thaliana 23 ttttgtttat gtacaaccaa accatctctt aatatgattt tccattctcg tgaaaatttg 60 agaaacagta cacaaagaga gaagaaataa ctatagttgt cacaacttgt caacttagga 120 cagtttcttg aaaactcact cactcgcatc tttagttgtt catatatgca ggaggaggtc 180 ctcttagcct ctgaccgttc tcattcagcc actctttttc tctcagaaat ctaagaaa 238 24 362 DNA Arabidopsis thaliana 24 cctctagagc ggccgccctt tttttttttt ttttttagaa ccgaagaatt gtctttagaa 60 tctccattgt gtatatacaa tgttatatta tgaaccaaaa cacaaggtga gagtctagct 120 actgtgaaag cctttgttca agggcaaaat tctcagcaag ctttagcaac tccaaggggc 180 taagaccgca caactagttt tgcagggaac aaatccgtga cctattgctg tatctttctg 240 aattccgaga gcacggggta tatattctca aaggctttgt aggtctcatc tctcatcttg 300 gctcctgtta ttacgatctt cccagagaca aagattagaa ggacgatttt tgggactttc 360 at 362 25 387 DNA Arabidopsis thaliana 25 cttttttttt tttttttaga agaatgattt acttttcttt tttttcacaa atgtaacatt 60 atattaaaca ttcgatacaa tacatagcca aaataaaggc cttttaagag attacagaaa 120 gttgaggccc tacctagagc ctaccatagt aacaatgccg actgaagaag aaatatcaac 180 ttttgaccca atctgaaacc acgtgtcatc aagaggatat aacctcaaca cgtattagac 240 aagtaatcgg aagatttccg ataacaactt ttgccgttga gcaccgatca cggtgagaga 300 atcagcgtcg ataacaatcg aattgtgatt cttttggtaa tcatcgaagt taaaccatcg 360 aagctccaat ataatttaac agcataa 387 26 481 DNA Arabidopsis thaliana 26 ggatcctcta gagcggccgc cctttttttt tttttttttt ttagtcaata aaacacatta 60 atactaaata catataatcc tcaaaagtca acataacaaa tccataagga atgagaaaac 120 aactctaccc caagagaaaa aaaaagtacg aatgaaagaa gaagatcatt tcacgtacgt 180 atgatcccaa cgtttggtaa taccgcttct aaacgcgcat tgcaaaacgc taaccctctc 240 ttggatgatt gtttccttta caccctctat cactttctct tcttcatcca ttatcgattc 300 caagtcgtct agaaacttca acttgctctg cagtttcttc agctgttgtt ctattactgt 360 cgcagctaac tgttccattt ctctttcttc ttgatcagcc agtattttcg cttgtgcagc 420 cgcagctcct agagctgttg ccacagacgc tcttatcctt aacgctacag gtagaccctg 480 a 481 27 386 DNA Arabidopsis thaliana misc_feature (1)...(386) n = A,T,C or G 27 cctttttttt ttttttttta gggtgaagtt ttatgcaaac tctaatagaa tgtaaaaata 60 gattacaatc aaatcaaaat tttccaaact gaagtatgat ctttgtttac atatggcatt 120 gtgatgattt agtaacaaaa cttgtcctaa tctccacttt cctatgcagg tataatgata 180 attccaacca aaaattctcg ctcacttctt gcttgataca agactaatct tctttccctc 240 cacaacaaac ttgccacttc gctccagctt aagtttcaag taagcaatag catcttttct 300 tgaagaaaac tctgaaagaa ctgatggtnn ntgttcatcg atcagagatt ttagctgttt 360 cagcttcatg aatccacctt taccag 386 28 493 DNA Arabidopsis thaliana misc_feature (1)...(493) n = A,T,C or G 28 ttggatcctc tagagcggcc gccctttttt tttttttttt ttttttatcc ccaaaatatt 60 ggaactttat aacatcaaac atctttagct ttcgacattg tctgcaacta agcaattatt 120 tggcaagacg gaataaacag cttcaagaaa aagaccagtg caaccttagt ctgctactgc 180 atatgggcag tgactgatac attgagaaac caaaagcata tannaangaa ggaaaaatca 240 agaagctgct tattcctttt tgccgattcc attcgacatg ttgtagattc ctgttccaat 300 catgtagaga gaacttgcag ccaaggcaat aggaatagca acagaagtga tcttgtccat 360 tggtcctttc aagtaagtgt gcctttggat gctctggaac aatctctgtt tctccagaag 420 cttctctcgt ggcctaaatg gagtttcagt caacatgatc tgagagaaat taatcgacga 480 gataaggaat ttt 493 29 498 DNA Arabidopsis thaliana 29 tttttttttt agtcaataac aaataatttc attacatact gattaaagaa gattacaaaa 60 acgaatatat aaagtataaa taaaagaata tcgtatctaa cgtatactaa taggtattca 120 aaacagagtc gagcaagaat ctgttttagg gtcaaacaaa gccggtaaca aatattttct 180 cccattcagt cccttaacgt tataactccc accggtcgtt gcatccacaa gtaactctcc 240 agcataacca ggatacgaac ctttcccata gactccagta caagccgatc cagcctcaag 300 cggtgccgtt ttaggccctt ggtaatatcc atctccgaac gggttcgttg ccgtcgcagc 360 catgagactc gccaagttaa tcaccatccc gtctaaacca acgtcgttgt ttggtgccac 420 tagtggtggg ctttgcggtc cgtaaaccgg cgcgtggaat ggccacgcgc attgtcctgg 480 acattgtgtt tctgagtt 498 30 217 DNA Arabidopsis thaliana 30 tctctctttt cattactcgg taaagaatgt ttcattagaa tcgtccatca tatcaaacgg 60 catgttctcc gaaggcttcc aatggcgttt cctttggttt ataaaccaat tgttgatttg 120 tttttgatcc aaacctgttt cttcagccag agatattttg tcgccttcag tagggtaagg 180 ccatttatta tgaacattcc accaatcgag caacgct 217 31 468 DNA Arabidopsis thaliana misc_feature (1)...(468) n = A,T,C or G 31 tttttttttt tttgaattgt atatattctt ttattcaatc tacaaacaca acagtattta 60 ccaacatatc aactttcaaa attgaatcgt tattacgctg tgaaatttct ctgttggatt 120 gatgagttta atttactata tacaatatag tcttttgacg agactacaca aaccaaaaac 180 ttgcccttac atattttcag aactcgaaag cattgttgat ctgaatggag aaagaaggtc 240 gagcaacgtt tggaagagga gtatcagctc taacaactat tcctgttcgt ccaatgttcc 300 cattccactt agaccgacca aaggaaacag atgcaaatgt tgaaggatga gctgtgaatg 360 cgcnnnacat atcatattga tattatcatt caacgactga ataacttcgg ttttaatccc 420 gggattgctt ccaccaaatg tagagcacac actaagttga attgcagg 468 32 205 DNA Arabidopsis thaliana 32 atcctctaga gcggccgccc tttttttttt ttttttttta ggacaaatag gcatgttaaa 60 taataaacac agactatgaa catagtcgtc ttttactagc gatggataaa cgaagattga 120 gtatacttca aacaaaaatc acaagtttgt attattcagc aaaaacaagt caatcttgct 180 ctaacatgcc ggaaaatatt aatta 205 33 310 DNA Arabidopsis thaliana 33 tgtctttttc caattagata gatttgtttt acatttataa acaagtgtac acggctaaac 60 aaatcgaaac taggtggaag aaagttgagc cagccatgga aggagacgct catggacaag 120 atccggacga tcatcttgcg ggcaatgtcc aacgccttgt agaacataga ggttgaagtt 180 aggtaactga tccggaaggg aagtgaagta cttacctact ggaccatcaa gaggggttag 240 tccatcttga tctccccata agacaagaac cggtttggtt atttccggta tcagcttaat 300 cggatttggt 310 34 485 DNA Arabidopsis thaliana 34 tttttttttt tttttttttt tttttttttt tttttttttt tttttttgga tgtaaaacaa 60 aagacgatat aactcaaaag atttatccac ataagcattc ttacaagacc ctctaacaga 120 gaaacaaggt ctcgaaactc ttcctttgtg ttttttttgt gtttttcttt ccctccataa 180 agtggggttt ctaaaagggc ggtaaatcca agctgagtaa ccgtcatttg aaaatctacc 240 agcctgacca taactgacat ttgaacattc agatatagcc gcctgaatca agaaggagcc 300 gagcttcttt tccatctaaa actcatcaaa ctagagattc tgatctgtat gttcaacgtt 360 cctcatcacc atcgtcatca tcctcaccgt catcatcgtc atctcgtttt ctctttgggc 420 gagatgatga agccaaggac tggtcaggaa ttggcaggtc atcttcgact tcttcttctt 480 catct 485 35 481 DNA Arabidopsis thaliana 35 tttttttttt ttttatacga aacgaagaac ttttacatta ttcacatttc cccaaatgaa 60 atatattaaa atttatatct tttgtttttt tctccaccac cttcttcttc ttcatcatca 120 tcatggtttg tttagtaagt agtcttgaac ggcttgtaaa ccttaaggtc tagcattact 180 ccggcgatgg agccaactcc ggcgaccaac gtgatcatca aacaaccaca gctcaacatc 240 tgcagacaaa cccacttcat actccatctc tcaaccttcc tctgtcttat atacatctcc 300 accggaaagt aaaccgtcaa aggccaaaac cctaacgcac ctaaaatccc tacgacgtcg 360 ttgaaaaacg gcataagcat ggatatcaca gtggtcaaaa ccacaaaccc gcttcggtaa 420 actgctctga aaacgttgac tttgtacggt gacctaaaac cagggattcg gatttcgtat 480 t 481 36 363 DNA Arabidopsis thaliana 36 ataaccacaa gcctgttgac tatgcaaaga agggcaacaa ggtggcaata aagattgttg 60 gttcgaatgc tgaagaacag aagatgtttg gaaggcactt tgacatggaa gatgagctag 120 tgagtcacat atcgaggaga tctatcgaca tactaaaatc taactaccgg gatgaattat 180 cgttggaaga atggaagcta gtagtgaaac tgaagaacat cttcaagata cagtaggaga 240 ttcaaatgtc tactttggag cttgaaacac tctcacatgc cttgttatgc cgtgtctgcg 300 tcgatgcaga acaaatagat tcgtcttcct gcttctagcg gagaagcctt cacagaagat 360 ttg 363 37 489 DNA Arabidopsis thaliana 37 tttttttttt tgtgaaatgg tttaagagaa agaaacaaag ttccaaaaga cacattcgtt 60 ctcaataagg tgctatgtaa ccttaaataa gaccaaaaag aaacaagaaa gtccttttca 120 aggtagatca gatccagcag ctggaccagc accaccacca aaaccaccag ctccacgacc 180 aaacccttgc cttgctccac tagctccacc cctgaagcca ggctggtaat cagcaggtgc 240 tccagccttg tcaccatact ctccacctga tttaggacct ccacggtatc catctctgtc 300 accaaacctc ctctctccat caccacgagg agggccacgg ggacggtcac caccacctcc 360 aaaaggtcga ccaagaggct tctgttgctt cttcagagta gcaggaacaa tctcagatgg 420 gagattaagg taagtcctaa gaaagtcaat accttcattt gtgaggaacc agtagtaatg 480 catccaagc 489 38 420 DNA Arabidopsis thaliana 38 aaaagttata tctttttcag aaacatcaat tatacaacaa agaatcataa tttttcagtg 60 aagaagaaca tcaatcaaaa tcgatatttg tatatacagt aaaacaattt cctataaaat 120 gaattctgta aagtttttcc taggtttatg tttagggttt ctccgggaag tcaaaccgga 180 gtttcttcgc cggcatagga ctcatcacct cttcgtctcc gttgaccatc gagaattccg 240 gtatcggcgg tatgttgagg tcaaacccac ggtggccact gctgacgtgg cttgtagacc 300 ccacatcttc agaattcgac acgctactac tcacaccgcc tccgttcttt ccttcgtagt 360 ggcaccgttt gtggccgccg agagcttgac cggtggcgaa cgatttatga cagatagagc 420 39 280 DNA Arabidopsis thaliana 39 tcccaagcac agaagctgca atggccgtgg gaccatctct catgacagtt ttcatcgtat 60 ttggaggtta ctatgtcaat gcagacaaca ccccaatcat cttccgttgg attcctcgtg 120 cttcattgat cagatgggcc ttccagggac tctgtatcaa cgaattcagc ggcctcaagt 180 ttgatcatca gaacactttt gacgtccaaa ctggagaaca ggcgctagaa cgactgtcgt 240 ttggaggaag gcggataagg gagacgatag cagctcaaag 280 40 373 DNA Arabidopsis thaliana 40 cgcccttttt tttttttttt ttagtgaaat aaaaatatat tcatcacaaa gttcggttca 60 ataatcaaag aaacaataaa aacataaaat aaatctcgat ctaaaattct caatatcctg 120 aagggaaccc tccttttcga ggatcactaa ctgccacaag ctcacttctt ccaccggagt 180 tctcaccgga ttcttgaact atgaactgag caatcgtccc tccggcaata ggagatagga 240 catgaccttt cttctccaac acaactcttg ttgctttagg aatctcgaaa tgatcattga 300 atactgttgt ccagttctcg tacgaagctc tgtttggtat cagctgatgg tagattcttg 360 gagctaagac gga 373 41 371 DNA Arabidopsis thaliana misc_feature (1)...(371) n = A,T,C or G 41 ccagggtgag caatttacac aaacattccc atcatgttca gggattaata gcatcaacat 60 ctcaataaaa gaagaatcca aatacagttt ttttttttgt taggttagct aattaacctc 120 tggctttaag ctcggcaagt ctcctggtta aatcatcctc ctcaactttc tcttcagtct 180 tggtaggaat ggcatgacca gcaggctgag gtagtccaac agaaacttca agaccgtaat 240 catctgctac ttgctgcatc aagctgttga cttctccttc tggagtcgnn natgaagtag 300 agccagccat tgcattatcc atgaactcag cttggacttc catgttcaca aactgtttct 360 caaacggatc c 371 42 172 DNA Arabidopsis thaliana 42 ataagaagtt tctctctttt aggaagtagc aacgcagaaa gattcccaat ttagcaatcc 60 cctgttttcc cgatcgcctt gaacacatct tcttgatact tgaacattct caatgcccat 120 cacttcatct tcatcttcat cttcttcctc ttcctcctcc tcctcgtatt ct 172 43 483 DNA Arabidopsis thaliana misc_feature (1)...(483) n = A,T,C or G 43 cctttttttt tttttttttt ttacataact cttactttaa aaactcgaaa catttcatac 60 attcaacaaa agggttcttt ttttctcatt cagtatccaa caagtaagca tagagaattc 120 atcatcatca tcatcatcaa tgccaacact tgcataaagt aacaacaaga agaaggaaan 180 naaacacaaa ctttaaaagc aagaggaagt gatctgattc gataactctc agcaacacag 240 catcaatctc tagatgttga cctgatcaaa agcttcaaga gcatcaccag taagtctaca 300 aactctccac tcctgcagaa tctgagcacc catctgctca taaaacttga tagcattaac 360 attccaatca agaacaaccc attccactct tccataaccc atcttcaccg cttgtttggc 420 cacagcagtc aacaacatgc taccaaaccc tttcctccta taaggctctc tcacaaatat 480 atc 483 44 374 DNA Arabidopsis thaliana 44 ggtacagaag atgtacacaa ggggtcttat gcgtcctact tacaagcatg cagatccgaa 60 gctcttcttc tgtcctcatt ttctatactt tcacctattc tttttttatt cttctgtgca 120 tagtaaatca gttttccctc tgcaaatcat agaaagggca tgagcacaac atgtcatttc 180 ttactgtttg ccttcttctt cttaattata tttctgcatc ttggtttctg gagaacgttt 240 cggataaaga ataagtgcca acgccaaaga gaccataaga ccaacaactc cactaaaagg 300 ctgtgatggg cggctccctg caatccaaac cggggaactt gggttgtaag tgaggaatcc 360 acctgactgt agta 374 45 487 DNA Arabidopsis thaliana 45 tttttttttt ttttctaaac aaacataacc catattcatt tgaggaatgc accattagca 60 acaataactt gtccattgat ccactcacca ccatcactag ctaagaaacc aacaacagaa 120 gcaatatctt tagtctcacc aagcctacca aaaggactcc tctcaatgat attcatcacc 180 gtctcttcac tcttcccgtc aaaaaacatc tccgtcgcaa caggccctgg agatacacag 240 tttgcagtga tgcctaaacc tttaagttcc ttagcaagaa tcttcaccat tgcttcaaca 300 gctgcctttg atgctgtata agctccttgc cccgggatta acgcctcggt taacgacgac 360 gttagcagta taatcctacc accgcctcca cgttttagcc tttttgctgc ttctttacag 420 cataagaatg atcctcttgt gttcaccttg aagatgcgat cgaattcttc aatgggagtg 480 ttggcga 487 46 464 DNA Arabidopsis thaliana 46 ggatcctcta gagcggccgc cctttttttt tttttttttt tttaaacaaa aacagaacga 60 atattattaa agaaattacg aacaaggaaa cacaaacata acgtcaaacc ataaactgat 120 gacgaaaaag acgataagag aaacacagaa acgacatcaa agatccaaac ttaacacaac 180 gaaacaaaac gtcacttcct cctaaacatc ttggagttac atactacata ggaaccaatt 240 aatcatcatg atctgtctta tggagaacca ccgcttgaac ttggaacacc accaccacta 300 ggtccaccac cgagtccacc agggaacccc attgcaccac ccaaaccacc aagcccacca 360 gccccaccaa gaagcggcgt cccactcggg agtgggaaag tcatgccaga gccaccactt 420 ccaccacctg gcatccccat gaatccacca actccggcaa cacc 464 47 465 DNA Arabidopsis thaliana 47 cctctagagc ggccgccctt tttttttttt ttttttttaa gtcaaaattt gaataagact 60 aaagtattaa ttgcttctgt cccacttaat tctcccacat cttcacacgt actaatatat 120 tatacatata tatcaactaa ataaaaatat cacaaataaa gaactaaaac aaataaaaac 180 gaactttaat aaaatcccat atcttgtttc tctctctctc tcaaagttag tatctcagta 240 cctttacgct ttgtttgtct ctatcttctt cctgatattc agagaatggt ttcatcagat 300 gattggacga agtgtgcgat gagagatgga gaagtggtgg cagagctttt ggtgaagctt 360 aaagaagcca aagtaatcaa gaatccgatt gtaacagcgc tccggtgggg aatccaacag 420 ccaaggtctc ggtgtccaag aaaagaatct gaatctagat gtagt 465 48 431 DNA Arabidopsis thaliana 48 ttccatgtat attcatttgt tcctaatttc catgtctggt ctcttttggg ggaaatcaat 60 aaataaaacg aaacttaagc gcgtgtactc cactacaagc ctctaaacca acgagtgatt 120 aacacgcgct ttaacatgag agtgggactc acgtgaacta atctattttc cccaaatctg 180 aagactttca cttttttttt tgtgctctct ctcttcttct tcttcttctt cttcttcttc 240 tagttcttca gcacaaatct caaatcacgg agatttcaat ttccaacaca aagaaagaaa 300 aaatccctca ataaaaaatc tcaatcagat cgccgatgat ggatccaaca ggatcgccaa 360 gaacatcgaa tggctctcct ccaagatcgt accttatctt tatgcgaatc atgagcaaga 420 gacggacatg g 431 49 441 DNA Arabidopsis thaliana 49 ttttttttta tgtaaaattt tgtaaattta aaataaaata caaaaggtat ttgtttttgt 60 acagtccaat tatgtcaaat atgatacaag agactagaga gtgttaagaa ctctaaatgc 120 catgttaagc ttcataattg gatagtggtc aattcgcaca caaaaagaaa gaaagaaagg 180 caaagaaggt ttagacaggg acacgccttc cacggtagcg atccagcaac gatctgatgt 240 atggttgctg caaaagccag cctaatagag gtatcctttg aaggaagacg gcaagtgtag 300 gccagaaacc actgaagagc acaaggaacc catatgattc aagaagcaaa ccgaaaatag 360 gccatccaaa cacaaccaac aagaaaccca atccaaatga tatagtaccc ttaaaattct 420 gccgtttagt aaagaattgg a 441 50 475 DNA Arabidopsis thaliana misc_feature (1)...(475) n = A,T,C or G 50 ttttttttga ctgaagaaga cttttacctt atagaatagc gactagtttc agacaaagat 60 attgacaatt tcacaacata tggctacagg gctttctatg acatcttttt gttacataat 120 atgagacttt tgatgacata tccatggata tacaaaatca gagcttgtgc agaattagat 180 gagctccgaa ttggggacga gtggtcatga ctgtttgagg cgcgtgaaca taagnnngag 240 agagctcgaa ggagaacttt tgtagaatca aagccattgc catctttgcc tccaacatag 300 caaaattctg accgatgcaa atcctaggtc cccatccaaa ggggaagaaa gagacctggt 360 tctttgttgc ctttgagagc ccgtctctga accgctcggg tttaaaatcc gctgcatcat 420 cgccccaaag ctcggtgtca cgctggacaa gaatagttgg taagtaaatt tgaat 475 51 121 DNA Arabidopsis thaliana 51 atcctctaga gcggccgccc tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt 120 t 121 52 327 DNA Arabidopsis thaliana misc_feature (1)...(327) n = A,T,C or G 52 cggtatcgat aagcttgata tcgaattcgc ggccgcaaaa ggttaattta aaataatgga 60 aaaaaacaaa aaatagtgaa agaaaaaagt aaaccattcg gttcgattgt tttgtacttt 120 agcttcggtt tatcaaaata agagctgaat ctcattcggt tttcggtttg gaattttttt 180 ttggtagcaa tgaatacctg tcttaggaga agctaagaat gtgaggatgt tgttgccagn 240 nacattggtc gataatgttt gaatagtcta cgcccacttc tgcttccact tgctttcctg 300 aaacttctcc attctcctct gtaacac 327 53 470 DNA Arabidopsis thaliana misc_feature (1)...(470) n = A,T,C or G 53 tttttttttt taaataagcc aacgcctgtt tggtttataa agatcagcct gttcactctt 60 aaatgcaccc gtttggtttt ttgataaaag acaatctggg aaaaagagaa annnngaaag 120 aaagaaagag aaactataca ttctggtgta tccatttgca gaggtaaata gaagcaatag 180 tagtttctga atcaccagat tacagcagat atgtgacacc tctctcgagg attttttaac 240 cacaacagcc acctccctga gagatcgtac catctcttcc tccagctgca ccttgagtac 300 gcccgtaacc aatcttgata cctgatgact cgttggatac atcaaagaca ccatcctgaa 360 tgttctggag gatcttggca gcagtctcta tgaaggcctc ctcaacgttt tgagcagttc 420 ttgcagatgc ttctaagaat agcaggccat gttctttggc aaactgttga 470 54 443 DNA Arabidopsis thaliana 54 cctttttttt tttttttttt tttctcaaat acaattctct cagtcttaac atatagttgt 60 tcatcagaca agaaaatctt atgagaaaaa caagtatgca tagtacgatt tcgaataagt 120 aactcatgat acaaagtatt gttttggtga aaaataaaga aagaaatgat caaagttgtt 180 cagtcataga ctttgcattc ctcatcagcc gggtttgtct tgcagaaatc ctccaaagga 240 tctccacttc caacagcttc cgctcccggc cacttgctag ccactaggtg agccaaatcc 300 accactcttt ggctgtaacc ccactcgtta tcataccaag caaccacctt gaccatatca 360 tcacccataa ccatagtgag ggacgagtca atggtggtag agacatcaga gcacctgaag 420 tcaacagaga caagaggcgc atc 443 55 416 DNA Arabidopsis thaliana misc_feature (1)...(416) n = A,T,C or G 55 tttttttttt ttttttttga ccttaattaa gtctaaaaca tcgtttgcaa gtagtaaaaa 60 aaacaaggat tatgtttgtg acaaacacga caaaacattt aagaaacttt aaacagacaa 120 agatgaaaca ggaatcatca accatgcgag gatctcttgc cacttgatcg gctatcatca 180 taacgacttc gacccctgct tgagtattca cgctctctgc ttactctatc atcatcatca 240 tcttccttac ccgttgctcg tcttccatca cctctgtacc tgtctctccc atgcttatac 300 tcttcctcat catccttcnn nctttctcgt ctcggtctgt atctacccct atcatcatct 360 ccttcttcct caatggctcg acctctatac ctatcgtcgt cttccttaat tgttcc 416 56 257 DNA Arabidopsis thaliana 56 ttttttattt aacacacaca tagatatatc gttgttatta caaacaagaa aggtagtact 60 tatagacaag catgcattct tctccataag agaatttgca gcaacggatt cggttgaacg 120 ttattgtaac attcaataca atcaaccgat tcgatccgtc gcttatttta ttattttgta 180 taaacatgca tgtttgtatc attcactgat atctaaacac acatcacaat atggcagaat 240 atataactgg tagatag 257 57 389 DNA Arabidopsis thaliana 57 cggtatcgat aagcttgata tcgaattcgc ggccgcggta actttaatgg gggcaaaaag 60 catcaagtta tattccaaag ggtttaagcc aaaacatgaa tcaagccacc aataaaggac 120 aagagctact tccccaagag caagaacatc aaccagtata gtactttcag ctatacgtag 180 acagaaacac ttgtacgagt ggttgaatcc ttagtctaac tgatacacac cctaaattac 240 acacagcttt tttatttatc aaaaccctat tgcacttcct tattcaagat tatgcccttt 300 ctcttgaagt tcagtaataa cctcattcct cattctcaac cacagtttct gagcctcttt 360 atcaaacttc ttcttctcca tttccttct 389 58 496 DNA Arabidopsis thaliana misc_feature (1)...(496) n = A,T,C or G 58 tttttttttt ttataacatc aacaaataca aaattaaatt tatattttca acatccaaat 60 attctactaa aaaaaataat gaatannntg attggtacta attaaactac ttatttgata 120 tttgcacact accgctacct ttatattata caagaataaa tgnnatcatg agagtgacgc 180 aagtgaaaac gtcatcgtac gttgactttt ccgaagtttt aagtgacgga gataacggaa 240 aagttgggag acgtcggaga taacggagga atactgaaaa taccatctcc tgctcccaca 300 tcccaaaacc ccatccaact tgacggcgtc aatggtacca ccggctcaac ctcagcctcc 360 gtcgtctccg acgtattact ctcttcttcc tccactttaa ccctagccgc cttctcctct 420 tccggcggag aactcttatc tcgctttcgt ttccctaatc cgataactcc ttccccagaa 480 caagtttctg acgtaa 496 59 102 DNA Arabidopsis thaliana 59 aaaataccca cagtctcaag agcacattgc aacgatgatg agcctcatcg tgcaatcaga 60 gtcttcttcc tcttcgtcca ccctttcggc gtgtactgtc tg 102 60 458 DNA Arabidopsis thaliana 60 tagagcggcc gccctttttt tttttttttt cacaactgta aagacgttag atttccctgc 60 acctgaccaa gtgaagtaac aaaactcata atatacaaag aaaactgttc ttgaaacttc 120 aagtgaacta gactgcacta gactagacta gactaggccg gtttctattc tgtcaacaat 180 caaatttata gctgcattag cggatgtgaa agctccatgg aagctttctt ggtatgaaat 240 ggaagttaaa tcttgagcca tcttcaacaa aatctctccc atgtcacttt ctttctctag 300 cagtgaacta tagtaagact ttgcagctac ttcactgatc tccacattgg ttggctcagg 360 gcaatactca tcatccaacc atttgtgcaa agttactctc aaccattcag attcctcaat 420 ggctctagaa gggagcaacc actcttctgg aatcgtga 458 61 362 DNA Arabidopsis thaliana 61 tctcaaagta caacatgtga gttataataa accacacacc aaaaaaaaaa caatatattt 60 tgttgttgtt gctaggagat ttatgtactt gagagaaaac ccacttggga ataaaactaa 120 agctttcact aaaacaagat accaaaacat ctaaaacctg aaacaaactt gatgaactat 180 atactacact ggtctactac gttcatgcct tttgtctctc ttacgaactt cttccaatgt 240 ctttgcctga aaactcccct gatccaaaca gatcgattcc acctccacca cctatagaag 300 ttaacagagc agacaatcca cctccggtat taccaccatt accaacagct cttcctaatc 360 ca 362 62 132 DNA Arabidopsis thaliana 62 tctagagcgg ccgccctttt tttttttttt ttttttttct tcgtcaactg acttttatta 60 aaaaaagact atgaaaggat acatgttgag attatgaacg cctgcagaaa aacaaaatag 120 ccaaaagagc ga 132 63 128 DNA Arabidopsis thaliana 63 cctctagagc ggccgccctt tttttttttt tttttaatca aaagtaccac atatatattt 60 gaattattac aaaagcctcg aaaaccaccc ttgatcatac gtacatttgt taaatcaagg 120 ggatgttt 128 64 414 DNA Arabidopsis thaliana 64 tagagcggcc gccctttttt tttttttttt tttttttttt aagagcacaa aatataggaa 60 ttaagggaaa ggttttttca taagtaggaa acaagaagca taaaatccag acaaagtcga 120 gttcacattc atgagtacgc ctaacatatt gaaaaacaaa aataaccgat aaaatccaaa 180 acgggagaga gcacagcttc aacatcgatt ccaccccaaa aaagagtcaa tcagagacgt 240 tttacatgaa caagttgggc ttgttggcct tgtaagtcgt cttcagcttc ctgcttggtg 300 gtctaacctt gcggaacacc aatgggaact tgatcttgct gttgtggaac tgtttagtgc 360 tctctctctt gcacagcttg gctgggacag tggctgtctt gatgatctga atgc 414 65 343 DNA Arabidopsis thaliana misc_feature (1)...(343) n = A,T,C or G 65 ttcagatctt gattttaaaa accggtccaa ccacaaaata tcatgtatat acaaattaca 60 taaaacatta ttcgtgagaa actttaaaac ttagccgagt gttaattata aaagatggga 120 tgttaagtcc ggttaatttt tgacgtattt atatatgtgt cgtattaaat acgttaaaaa 180 ctaaccgttt ttaaacataa ccaaagcgat ttaataaaat aaaaataaat gttannnntt 240 taaattatgt gtaaactata ttgaacataa cacatctctt aaggattttg gatatttttt 300 taaatccggt tagatttaac aacgtcatat taattaatat tta 343 66 286 DNA Arabidopsis thaliana 66 ctagtgagct cgtcgacccg ggaattccgg accggtacct gcaggcgtac cagctttccc 60 tatagtgagt cgtattagag cttggcgtaa tcatggtcat agctgtttcc tgtgtgaaat 120 tgttatccgc tcacaattcc acacaacata cgagccggaa gcataaagtg taaagcctgg 180 ggtgcctaat gagtgagcta actcacatta attgcgttgc gctcactgcc cgctttccag 240 tcgggaaacc tgtcgtgcca gctgcattaa tgaatcggcc aacgcg 286 67 307 DNA Arabidopsis thaliana 67 ctctagagcg gccgcccttt tttttttttt tttttttaga cgaacgtcat atacaccgac 60 aattgacaca ttatatcttt aattaaatat cttacattac atgatttact taagagttat 120 atatatattt tttgtaccac aagagatata catattacaa gagagaatta gtacgagatt 180 atatcaggag cgtttagaga ctcaatcatg acatggtgag gactctaata ctgtaataca 240 tatgtaatct ctcatcttta accaaacaca aaccaaaact ataattgcat atatagttta 300 tataatc 307 68 353 DNA Arabidopsis thaliana misc_feature (1)...(353) n = A,T,C or G 68 tttttttttt tcctctcaat ctcatcttct aatttcctta ctgccgtatt gactgaccat 60 acgatttgtt aaccgattaa tacatcactt ttggatggga tccacgatta tgaaagcggt 120 tttggtgtat aataatcaga caaagcaaaa caaaaggaca agtaatagaa ggagctgaaa 180 tcctaaggtt agtgaaattt tattaccggt ttctttcgta tctgaaatga aaannntcaa 240 cttgtccata cattccctat cttaccaatt caaatgaatt tcatcttcga cccgtcgtta 300 gaaatggctt gaatgtcaga gctactccga ccactactat cacattcaag acg 353 69 179 DNA Arabidopsis thaliana 69 tttttttttt ttttgataat atatgtaagc tacattttta tgtgaaactg tttgcagtta 60 cagtattatt cttgcaacaa aagccaaaag ttgaccttac acacttcatt taaattgtta 120 tttcataaac gaggcaaacg ccaaaagttg cagaacctgt gaaattgtgt ttgatattt 179 70 430 DNA Arabidopsis thaliana misc_feature (1)...(430) n = A,T,C or G 70 gatatcgaat tcgcggccgc ctgaaacaag aagataaaac attttcgaaa gannagttca 60 agaactctcg ctccggtttg gtttagacga agattccgaa tcaaaatctt cctccgtcgc 120 aggaatccat tcgttcgtcg ccggattgct tctgtaaacc gctttttctc ctccgtctcc 180 gattgcggcg gcggttacgg cctcggattc ttcaccgttg tcttccttca ccacatttat 240 aaacccactt ccggtcgtgt gatgttgctt atcaatggcg gtgagatttg agtaatactc 300 tgtttccagg aactcatctt gaactgcaga tgaatctccc tcacctagaa ctttaccatg 360 agtttgtgac tggagagatt ggaatttgtc agcttcagga tggtcggtga ttttgtcgga 420 agcagagaaa 430 71 113 DNA Arabidopsis thaliana 71 aaaattgata cataaagaag atcatagttt agccgtaaga tgaagaacaa tgttgccctc 60 ccaagaaaat ttgaattgtt tctggatttg ctcattttta ttataaccta aat 113 72 241 DNA Arabidopsis thaliana 72 tttttttttt tttttttatg caaattttag tacattttat tttcctttga gaatcatgca 60 aataggtaaa taagaattaa gaagtaaaca tttggccagc atagaatcca agagacagca 120 acagaaccgc agctgcggga acaaccacac cagccgtaag tgctgttctg ttattcttca 180 tcagtgccac atatcctcca agattctcct tgtattcatt cactttactt ctgtaatctt 240 g 241 73 147 DNA Arabidopsis thaliana 73 ctctagagcg gccgcccttt tttttttttt ttgcaaaagg agctttactt tattccatga 60 taaagcgtac atggaaagag atactaataa gtttgaaaca tgattaaacc caacggtcga 120 aaaatcaaca cttatcagaa aatgtca 147 74 293 DNA Arabidopsis thaliana 74 cctctagagc ggccgccctt tttttttttt tttttttttt ttttttttga tgtaatcaat 60 gactcgagga gagaaaacgt gtttcttaca acacaaatgc acatttggga cacgggccat 120 attatggaga tacaacaggt cgggttgggt tgcggctaag accaagtccc aaacccaaag 180 gaacattgtc actctttgac ttactattat ggctatggct gcagttggca gaatgaacat 240 gtgctgactg tgaattatgt gtcgggttaa catcgatagc aacatggcca ttg 293 75 384 DNA Arabidopsis thaliana 75 ctagagcggc cgcccttttt tttttttttt ttttttaaac attaataacg agttaacgac 60 attaaaaccc aaaataacac aaatattttt caagcccaaa ctctatccac aaacccataa 120 aacaagaaaa tggatcaagt ccacaagcct agaagagaga aacgataaga aatttaagaa 180 cccatataga gccaaccgct aaaagataaa ctgagtagca agtagtaaca caactctaaa 240 actctgaaaa agcctttttg tactttgaga catttctcta ctcagcagca gagttaccct 300 gaagaagacc atccctgatc tgtgaagcaa tgtccctaac agcgcctgga ccgtgcggta 360 tgaacaccga gtttgacttc gaag 384 76 250 DNA Arabidopsis thaliana 76 ttctcattcc aacattagtt gtacaaaaaa aatcacatca aatcaaattt ggacgaagaa 60 gatgaactga aaacatattt ttgtatacta aaagactaca taatagtaca agcatgggga 120 ttatcatcgc taaacatcga agccgcgatc tcatctccag ccacagcaac cgagtaatcc 180 gcgggagtgt ggaagaaagt gtggacacca ccggtgggat ccgtacggtg tgcatcagag 240 taatagtggt 250 77 432 DNA Arabidopsis thaliana 77 tcgaaaagct gtgtacaaca attcaaatac tgtatttcaa gtgtaatgta aaacatttta 60 tcaacaagaa gccattagtc ttccatcatc attttataat aacatgttac tttcactaca 120 cgttaaaatt caaaacctaa caaagttttt gtggcacaaa ctcaaaaacc aataaaacaa 180 tgattccaag gttaattccc agatggtctt ccttgtgcac cattagaatc ttgaggatta 240 ttgttaccag tgcctcccat tgatcctcca aacatctgca tcattgatcg taatgcaccc 300 gataaatctt ccggcatttg ctctgtgcct ccgagatcta tgttgatatt tccgcctaca 360 tgtatctcag gctcatctgc accatttctg gtaccatctc cacctgctcc tccctcgtta 420 ttgcgagaat ga 432 78 173 DNA Arabidopsis thaliana 78 cttttttttt tttttttttt tttcaaaatg tcagtcaagt tttttaattg aactttgtca 60 gaaattggaa aaatccaaaa tcttacaaga acagaagaag aacatcgatt tttaattaca 120 cagcttttca tctgtaagag aacctcaaaa cagagaaaga aacacacaga ctt 173 79 420 DNA Arabidopsis thaliana 79 gtatcgataa gcttgatatc gaattcgcgg ccgcatgaaa tcgaatgaat ttaattgtga 60 tacacaattc aagccaaatt gaattcagaa tttaacaaca acatgtaaat taagatttaa 120 agaacctgtg tatgaataga tattaatgtg aaagcctcga gtgggtcatg aaaatgaaat 180 gtcacggtgg atggtgccct agccgaagtt caagatcaag ctcatccact gatgttcctg 240 tcgcttcttt catcgagcca atgctctcat catctcctgt cgaatattca ataagccgag 300 gaggaacttc tactggagaa ttcaacattg aaaacggaag gttgctcgga ggaaacgaag 360 tcgtaccata aagattcacc atgtcaccag aattaccaaa aatgccacta gggttttgca 420 80 208 DNA Arabidopsis thaliana 80 tttttttttt tttttttttt ttagactcta aagactatta ttgcatttga taacgtaaac 60 tttactttat tgatttgctt tgctaaatca aagtctctcc cgaaatggaa ccgaagaaga 120 agttacacaa ctagataaaa ataaggtatc tttctaattc aaacttcaga cttttctctt 180 aagcttctgc ttcatcctct caattgca 208 81 450 DNA Arabidopsis thaliana 81 aatcaattac aaatcaacaa ttctcgtaca agaatgcatc gtgtatgaca aattaatatt 60 caaacaaata atatataatt gtgtattcaa aaccatatta tataagcgta gagaataata 120 tcatcaaaga cttgtgttga gcaactctct gtaatcttta cgaattcccc acaaaatctc 180 actgcatttt ttcatgcttg gtctcgaacg tctatgagga gctagacatt gaaacgccat 240 ctccaatacc ttctctaatg ctaagttgtt cgctgaattc tgttctagct tcgggtccaa 300 taccgatatc gtatctccac tcgtgaactt cttgatcgcc catctaatgg tgatgcgttc 360 tttttgtcct ctgctaagct cgatgggacg ccgacctgtg agaagctcga cgagcagtac 420 accaaaagag tagacgtcac ttttctctgt 450 82 378 DNA Arabidopsis thaliana misc_feature (1)...(378) n = A,T,C or G 82 ctagagcggc cgcccttttt tttttttttt tgctttaaaa tgttttaaag tatctatttg 60 tggttaacag agaccacaca ataaatagtg atagtaacga gttacacaag taacacgagc 120 ataaatctga ttcgctaaac aatgaatcat attacaggaa gaatataaag ttgaagtatt 180 ctacacttta cttgacaagt ttatcctaag aaatctgcgg ttttgatcag ctgattatgt 240 ctatggcacc gggtaacacc tgannctttc taggtaggaa tccaagatgt tctccatctg 300 actgcacata gatacttcca ctgtctgtaa tctcttcaac ttcgatgctt tgtacacttc 360 ttgaagtcac attgttaa 378 83 336 DNA Arabidopsis thaliana 83 ctctagagcg gccgcccttt tttttttttt tttttttgta actaaaaatc atagagccag 60 accataattg gtttgactag tctttgattc ttaatatttt cctagaacag gtaaacaaat 120 gcaatagaaa gaacaaccaa aaacgtttta ccaacaagta aatggaaaca atataaaaac 180 cataacttaa actgacaatt accaatcaat aagatggcca gtatccatcc aagtccatgc 240 actggctcat ctccacattt ccaaacccgt tttcgccatt gtacgaagca ctaaccgcgg 300 caacatcctc aagagacaca acaggaggcg gctgga 336 84 110 DNA Arabidopsis thaliana 84 cttttttttt tttttttttt ttttacgact tcctataatc ccataaatat atattgatta 60 caaattacag atacataaac tagaaactac ctataattca taattcttcg 110 85 102 DNA Arabidopsis thaliana 85 tttttttttt tttttttgcc aaagtgacta gaagctttga atttaacgga cacgattaaa 60 ttcaatattt tgacgttgag agaaaactca aattattcct aa 102 86 153 DNA Arabidopsis thaliana 86 tttttttttt tttttttttt tcattaaaag aaatgtcatt gatcatttaa tgttcaaaaa 60 ctagatacat caaatatctt taatgtctat catctataca tgcaatacac ttgtctagaa 120 tcaagcaatg tgctcttcct tctctctgta cac 153 87 105 DNA Arabidopsis thaliana 87 tagagcggcc gccctttttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt ttttt 105 88 423 DNA Arabidopsis thaliana misc_feature (1)...(423) n = A,T,C or G 88 atcctctaga gcggccgccc tttttttttt tttttggtga aattctctgg tttttatatt 60 gaatgtttan nngaagtcac attgaacaac attgagaaag atcttaaacg aaaacaacta 120 tcgagattgg agaaagctta ttgagaagtg gttctcaatc ttcgaagctg atcaatccaa 180 cgatcctcat taacatcgga ggcccaatca ggagccgttc cagggaatga gatggctcgc 240 attgcctcca taaccctaac ggcattctcc tccactaacg gcgatcttct ccgccgttcg 300 tcctcctcaa acgctctacg gatctccggt ccagtctccg tctctgtctc ttcttcgctg 360 tctgtgttat cgtttatact aatagaagag attcctacct ctgcatccgg aatcatacaa 420 tgg 423 89 377 DNA Arabidopsis thaliana 89 aaacgtgaaa atatgtatag ccttttaaat tatggttttc gttagagagg agacatatac 60 acatacaaac gcaaaagaat acatatacta tttatgattt aggttacaaa taaaaacatt 120 acacagcagg aacaagtcaa gcaagcttaa tagttactct tactcattac gcaacacaat 180 gccaagtctt tattccaaca tacacaaaga tctcttagca taaaacacat ttttttccca 240 ttttccttgg tttgagacca tgctgataat ttcttcaaca gttacagctt gacccgcagc 300 tgcagtttga tccacagcta cagttatcac actccttgtt gtagttcttc tcgcaactgc 360 acgaatcacc acatttg 377 90 397 DNA Arabidopsis thaliana 90 gccgcttaat actctcatca accaaaactt ttacatacac ccctgaaccc accatccatc 60 taaacaacgc aggttagttt gtcattactt gcgacggaag ctacccgaat atagaatcgt 120 atgttatcga tcaccggttt ccgccaatgt cttctgataa ttcttcaacc aaatcctcaa 180 aaatctcaaa ctcgatatcc aaaaccgtct ctgagacatc tgcgtcgttc tttgatctcc 240 ataatcccaa tctctctgtt ctgaaatcat gttcgaccat catatcgatt gtgtttgact 300 ccacatctct ccaagatctc aatctctcgc ataccctttt ggctacaatc gcggcttcag 360 cttcaccgtc gatgtcgctt ggcaattcct ctgctgc 397 91 114 DNA Arabidopsis thaliana 91 attacaacat tgcgaatgaa attccaaaga agtagttaca tagcgtgtga acaacttagt 60 caagttttac acaatctatt tgacacacaa gtcctttgat gctaagtcct ctgt 114 92 365 DNA Arabidopsis thaliana 92 tttttttttt tctcaaagca tgtgtggtat catagttcta cgaaacaaat agtacatcac 60 tagttgaaat gaaaatctca caggtaaaca aaatgttgga tgagagatct ttagcagaat 120 cactctaaat tcttcattca caatgtaaac gctacaccat tgtctaacaa ctcaacaaag 180 tatagcaaat ctctgaacat gccaagaaac atctggcagg tacgcagtta accaagtaga 240 atgtgattct taaccgtcat cactgtagct tctcgagttc tgacatcctt tcgatgattg 300 cccttttgct tgtttcttgg agctccccag caagaatgaa ctcatcgagt atcaagtaca 360 ccttg 365 93 141 DNA Arabidopsis thaliana 93 taatccttct tcatcttcct ctaccattac aacaaactaa ctaaaatgtt acattcaaac 60 caaaaaaaca tcaaaagaga gaattaagtt tcagacattg ccaatggctg gtcacaaaaa 120 acaaaactct tccaccattt t 141 94 447 DNA Arabidopsis thaliana 94 cctctagagc ggccgccctt tttttttttt tttttttttt ttgaaacaga acaaactttt 60 atttcatctt agaacaaaac accatatccc tcacgcattc cgattacatt catcaaatcc 120 ataaatcaaa acaaaataga taaatccaac acacaatcac aaaacaaact caagcaactt 180 gaacttgaat tgtctttggt ttctttggtt ccggaggagg aagtttctga acagtaacct 240 tcaacacacc gtcatgacaa acagcagaga tcttgtccaa atctgcattt tcaggcaact 300 gaaacttcct catgaactta cccattcttc tctccatcct cacatacttc acaccttcgt 360 tttctttgtt ctctctctgc ctctctccac tcaccacaag cacattgtcg ttctcgacct 420 gaaccttgat ctcatctcct ttgattc 447 95 492 DNA Arabidopsis thaliana 95 tctagagcgg ccgccctttt tttttttttt tttttttttt tgagcaaagt tttttttttc 60 ttttctgatg agtgagcttc taaataagtg aagagtgtct tataatttgt agaagactaa 120 aatgtgccca catagactga gattaaccca gagtaaacac aactcagatt cgattccatc 180 atcaaatgaa atgataacaa ctgtttttgt ttgagatcct ttcttgcttc caatggtttc 240 tcagttctca ctgtgtgttg ctaatgtcac cagttacttc catcatttga tcagcctcaa 300 gatttgcgtc ctcattctta ttcacagata gatgctgagg tgtttgcgga ggagggactt 360 tggataggtc tctaagagtc cccttgtttg cccacatcag tccacacgca ttacaaagtg 420 ttcttggccc atcaggtcca cgtcgcatca ttggagttga cttctcactt gttccacagt 480 gtcgacataa aa 492 96 154 DNA Arabidopsis thaliana 96 tttttttttt tttttttttt tttttttttt tttttttttt tgaacctgtg taacaatcat 60 gatgtgagaa ttggtacaca aagaagattc atctgttaaa ttacaccagt ggcattctca 120 caatttacaa aagctacata tcgttctatt tttt 154 97 522 DNA Arabidopsis thaliana 97 tttttttttt ttttttgaga aaacacgaga catttttatt caaattcaaa accaacaaca 60 aaatcaaatc atgaagacga aactaacaac atgaatcaac aaggaattgg gatcaccttt 120 gatatggttt tacacaatgt gtacacatat ctagagctca tctttgacat caccgtcttt 180 cggggtagga ttagaagacg atagcttgat cggatacgat gcctccatcg caataccgca 240 acgcccttcc ggttcatcaa tctctctttc aatctttata tagcctccct ctccccattc 300 agctccccat gagtttctca ctatccaata ctttttcccc ctctcagatc catacccgac 360 cgctgccaca ccatggttca gctctgttcc acaagatccc gtaaacactc cctctgaata 420 aaactggaaa tctgaacttc cagcatcaat tgcaacagat acaggttggt ttgcaacagc 480 cttaagaaga gcattttcgt cgttttcggg tacatcttca tg 522 98 351 DNA Arabidopsis thaliana misc_feature (1)...(351) n = A,T,C or G 98 aaaatagttt aaagccaaaa gaaacacaat tcttacatcg atcaccatgc accacactta 60 caaagctaca aacaaacaaa aaaattaaca acatttttaa gtaatgtgcc accttttgca 120 acactactat cttgtcccat acaagcctca caaattaaaa tgaaaaataa agaagcatgc 180 acatgctaca aacttggaga accagttaaa accaaacaaa cagttannaa tttaaancac 240 acatatcaac aaataaacac aatctaacta agtgatgata atccaatagt catcgcttcg 300 tttctcgaat tcaaacagct gcacacatct tctcttctac ctctacgtga t 351 99 125 DNA Arabidopsis thaliana 99 gatacaaaac aatatatcct ctcactcact cacgtcgtcg tcgtactaag cttggccgct 60 ttgaacggcg gatgaagcag cccaaactcg tccttggcat cgagcggcct atccgtctga 120 ttgcg 125 100 121 DNA Arabidopsis thaliana 100 atcctctaga gcggccgccc tttttttttt tttttgtagg ggcaaaacat attataccat 60 aaggaccaca aaacatcaca acaatgatat tttcaacaga gtactagtag agtatgttta 120 t 121 101 246 DNA Arabidopsis thaliana misc_feature (1)...(246) n = A,T,C or G 101 tttttttttt tttttacaga gaagatggtt taattcatct aaatttggaa gttggggaaa 60 attttaggag aaatacctan aatnatgcca aaaaagatgt ggcaaattgg tactcctaaa 120 caaacctatc taccaagtga tagcttagcc attttacatt gtaatttaca caagcaaaaa 180 actttccatg agaaaaacaa tctgaggatt ataactcttt attattacct catttatata 240 tatgca 246 102 307 DNA Arabidopsis thaliana misc_feature (1)...(307) n = A,T,C or G 102 cctctagagc ggccgccctt tttttttttt ttttgtacag acagaacaag gggaaatgaa 60 taaatgaact tacatatata tacttaacac atgtataaag atatatgcat atctgattca 120 tgttccactt gaatcaatat ataaacattt ttcctccata agnnntcatc aaagaccaan 180 aagcttaact tgcttttgtt catcagttat gttggcactg gaggtttttc caaccacttg 240 gcacgaaacc ccgttccttt gcaatcgcta cagctagcag aaccctgtcc agagcagatt 300 acacatg 307 103 552 DNA Arabidopsis thaliana misc_feature (1)...(552) n = A,T,C or G 103 ttcttttatt aatatactaa aaacaaataa ttaatcatta aatgattatt aatagaataa 60 ctattgtttt cttcacttat ctccgtcaca tgagctaaga gaaatcagag accaaaagtt 120 caacgagaaa ttctcactag atctcttagt aaccatggag cctgagatgg tgcgactacc 180 cattcatgag cactggctga cacctgcaag agataatcgg tggggtaaat gttgtggact 240 ccaattcaaa actatcagtg atggctacaa ctgtagaaaa tgtggttatt tcttccataa 300 gagttgcagc aactgcccta aagagatcaa ccacccttct cacaagtgtg ataagaatct 360 ttctcttatt acaaattttg ccagctggag tgtgagatgc cgtacatgta aagagacaat 420 ccagccctat atccagaact atgaatgtca gcgctgtgaa ttcaacatcc atttggattg 480 tgtcaagtac ccaccacngg aagtcattga ttttccccag aaccatgacc acaaactcaa 540 gctagagatg gt 552 104 487 DNA Arabidopsis thaliana misc_feature (1)...(487) n = A,T,C or G 104 tctagagcgg ccgccctttt tttttttttt tttttttttt tttttttttt tctcatagaa 60 aatcagacac tgaataattt gttgactttt gtcgagattc tggcaatgct tttagcagta 120 tacattcatc tgaacacaat ggccgagcat tctcatggcc aactttctat taaactcaat 180 ccatagaggt ttgaataaag aagaaagaat tcactaaact ttgagtttga gcagcacaag 240 accttatgaa tgaggatgaa gctgaannnt tcccatatgt tcggggaagc tgtatgagct 300 ttcagtggtt tccatctgcg gacgcctttt cgaatatttt atgcccacac cagtccatca 360 aagccgattt ccagatttga cacagggctg tctccaatac cttggtcaag cgcttgggtg 420 tcatctattg gatcaacata tggctcgagc agatcagcgg atctttccga gggaattcca 480 taatctt 487 105 343 DNA Arabidopsis thaliana 105 tttttgtagt tagtgattat attctacaat tgctctgcaa aatagtggac aacatagaaa 60 gctggtatac gttatggctc atccatgcta aacatttgga ccgtgattgt taagttagac 120 tgattctatc actgttcttc tttgttcttt ttgcttgctt gtggttgctt gtgctaagtc 180 atcatctatt tgcggcgtgc taggatattc ataatctttg gctttgcccc atatcacaag 240 gtatagacct acacatatga ccgtagcacc aagagccctt ccgaggtaca tctgctcatc 300 aaagatgatg ctcgacataa tcgccacaac gatcatacaa aga 343 106 484 DNA Arabidopsis thaliana 106 aattatatat tactaattca tatttcttgg gaagctcgga aacagaggta aagcactgtg 60 attactgatt agtcacacat acacacacac attcaccatt acaagaacca ttcttttatt 120 gatacagaac atgaaactag cgcgtcatgg tggtaaatta cgtttataat gaagttcatc 180 aagcgaaata actgagatac tcgtcaacac ttgtgtactt gacatcaggg taaagctcag 240 aggcttccac accaaaggaa ggctctatac tgatattggt atctccattc acaaacaccg 300 cgtggtttat cgacagaaca acattgatgg gaatcggaga ctcttggatg cttttaagta 360 gttgttcctc tgggaggtga gtcttctcaa gagacttgcc aatctttttc tcccacaagg 420 tgactatttc gttcatcgat aaagtgttgt tagaaggctt aatgtatagg attttgttca 480 gagt 484 107 428 DNA Arabidopsis thaliana 107 tttttttgta aatttgtatg gtttattgat gtcttgtctt acatatgtat ttgacattct 60 ctgttactga aatgttaaaa tatcgttgca tttactgtaa gcaacacaaa catatcttct 120 tattgattca ttaaccatgc aaatccaaac tcttcaaaga tgtatgggat ctatgagtaa 180 ggtgactata tactccttca attttccttc actacaattg tatatatcat cggacttggt 240 gtagaggact tccaataagc gtccaaaatt gagggcttgc ttgagaactc gacgtggcac 300 ggtggttgtt tttagtagct cctcatttac tatcttattg atgtctacga ccattttttg 360 acactctaga atagcttctt ctttggtaac tacgaattgc ttcatataat agttgatcgc 420 atttgcag 428 108 458 DNA Arabidopsis thaliana misc_feature (1)...(458) n = A,T,C or G 108 tctagagcgg ccgccctttt tttttttttt tggtttggaa aatttaagaa catgtttggt 60 tgaaaagaga aaagactcaa gtggtcggat ctgtccaaaa gttttgtgac ggtcacaaga 120 gggaaagata aaaaggaaac ggatttgaag gaaacggctc agagagattt aagacactcg 180 cagcatctct ctacttctct ctctctctgt ttcaacccct cttgtcgtct atctccatca 240 aaaagaccaa aatcaaacat cattgaatgt tagacagaga ggcaaaaact aatcaaagtg 300 tttctaatcc ctgaaaataa gcccacttct tctatttnnn tcatttcagt ttctgggttt 360 taatcgatct ccccctttct cacccttccg tctgnattcc ggtctnnnat cgtcggaaag 420 ttttggactt tacaccaacg ccaaagcgag ttcttgtt 458 109 380 DNA Arabidopsis thaliana 109 atcctctaga gcggccgccc tttttttttt tttttttttt tggtaaactt gatttttttc 60 gaatctatta tttaataaaa tccaagaaaa attatgttct ttatcagaaa aaaatatacg 120 tagtagtaac aacaaaatag aaaacaagtg tacccaccaa cttaattcca aattcttgaa 180 acatttttag aattcactgt cttcttgtgt ctcagaaaca gagctttgtt ctctgtcttt 240 ttttctcttc ctcacttaac tctcatcttt ctcaatttac cagtgtctac caccttgaga 300 actcccgcct tttcttggga aaaatccacc tttcttaggt ttaggaatgt catgaatgtc 360 catcacctgt atagtccttt 380 110 398 DNA Arabidopsis thaliana 110 tttttttttt ttttttttat ctaaaaaatt gagttacttt tattttgcaa taataagcat 60 gaatttttgt ttattactcc attatgacat acagtaaaaa aaaaaatctg tgtttgaagt 120 tttgaacaag taaagagtgt tgttacagtt tcctctgcca aatacccttt gaaactaatc 180 aatcctttca agattaaaca ttaccatatc ctcaagagcc gatctgaaac cactcctagg 240 aagacaattc aaattcttta acgcaagttc agctttctcc tttgctaatt cttgagcttt 300 cttgatccca ccgcgatttc taactatttc aatcgcttct tcaagcgatc ggacgcgtgg 360 gtcgacccgg gaattccgga ccggtacctg caggcgta 398 111 306 DNA Arabidopsis thaliana 111 tttttttttt ttttaagaat taactttttc caccactgtt ttattcctga tcggttcata 60 aatacaactt atcggttcga tcctaagaag agatacaaac aaagcattga ttgaaaaatt 120 aaatgattgg agaaagaaca taaatcatcc aaagagttca gattctgcaa taagaagtct 180 taacctttaa accgaagaaa caaaagggtt tcttcccaaa gtcttcgtct tcgttttgca 240 atcaaatccg caaccacact gtggcgactc gtaaaactca tcgatctcga agttcgccga 300 tgtgat 306 112 336 DNA Arabidopsis thaliana misc_feature (1)...(336) n = A,T,C or G 112 cctctagagc ggccgccctt tttttttttt tttttcaagt aaatatttgt attattttga 60 tgacattatc ttaaagattt ccgaaacaag gaagaaacag aacatgaaac agagcagaaa 120 cagcaacaca aacagaaaca taaaaacata tcagcgtaga atctattcga tttcgatccc 180 aagttttttc cttagctcag gaacgaactt aatgatcttc tccgaatcag gaagagactt 240 agccacactc tctctctcca cacacctttt accccaagnn ntcagttttg gacactcggc 300 ttcaatgctg aaactcccaa acttctcata cgcttc 336 113 458 DNA Arabidopsis thaliana 113 caatagggag ctttagagag ttatttggtt tttttgatgg tacttacatt ggctaaacaa 60 cagaagcaaa gaagaaacaa catctaccct ttagccaaac atcactagaa gaactaaact 120 tagcaagcca caaatggtta aacaagttga tgtaccgtac atacaggatt tgttaagagt 180 cagggctttt ctttagctga tgcagttaag atcagtgttt ctggattctt tggattgaaa 240 cttgcaagcc ttcttcattc tctttgcagc ttggacaaac cccacaataa cctgaagctc 300 atccatttgc tgagacatga agtgcctttg aacaatgtca attagttgct cctttgatgg 360 atttggaatt gcatccacaa ggttaaaatg tcgccaataa ttcagtaaag caggcatttc 420 caatttgcta agatcaacct tcatgttttc aggaggag 458 114 105 DNA Arabidopsis thaliana 114 cctctagagc ggccgccctt tttttttttt ttttttttta tagcagagag aggttcatac 60 ttcattctat acaataatac aaacattgaa ttacattaaa gcgaa 105 115 335 DNA Arabidopsis thaliana misc_feature (1)...(335) n = A,T,C or G 115 tacgacgtca tcgcgcagat ggtggagaac atgatcaacg tactcgatta ccgcgagtac 60 gtcgtgttcg tcggcaccta tcccaacgac cagcagacca tcgacgaagt ggagcgcatg 120 ngccgccgct acaagcgcct gcgccgcgtg gaagtgccgc atgacgggcc gaccagcaag 180 gccgactgcc tgaactggct gatcctggcc atcttcgatt acgagaagcg ccacgacatc 240 gagttcgccg gggtgatcct gcacgacagc gaggacgtgc tgcacccgat ggaactgcgc 300 ttctacaact accttttgcc gcgcaaggac atgat 335 116 308 DNA Arabidopsis thaliana misc_feature (1)...(308) n = A,T,C or G 116 taaaaacgaa aactttatta ttgcctgagg tgcttggaag ttttgtaagt gtctcacata 60 tcccaaatta ttatcatcga aaagataana atgatgaaga gaaagttgat tgatttaaaa 120 actttaaaaa aagatgttca gagtttgtgg atggttttca tgtctatagc ttcaaccaaa 180 gttcctttct caacatgatc ccaccacttc atcaagaaat tgtccaccac caatctgaac 240 catggtgaca gtttcaaacc ttcctcacct gcatctgctt tcttcaccag ctccttcagc 300 tcttcccg 308 117 407 DNA Arabidopsis thaliana misc_feature (1)...(407) n = A,T,C or G 117 ctagagcggc cgcccttttt tttttttttt tttttgaaag accgtacctg ctaaagaatt 60 gtgataaaaa tggttttcgg atcaaacaag caaatgcatc atataacgag aaactactga 120 aaaagcaaag tttaagaaca aagatactca aacaaactct ttttattctt taaggtcctc 180 caagtatggc attctcggta tcttctctac tcaacgcata gctaaacctt ctttccatgt 240 ctctctctag anntcccggc ccacttttca tgtacctaat gcagagatca gtgacatcaa 300 gagatagttg agcatgccaa tcaggtttct gaatcaacca aacagctcta tcgtctttac 360 tttggtaaaa ccctaatttc ctcagccacg cttcgataca aggtaag 407 118 305 DNA Arabidopsis thaliana misc_feature (1)...(305) n = A,T,C or G 118 ttttttttaa tttaaaagga caaggagata ttttatcttt caaataagtg taagaatgta 60 gattgataat atgatttnnn aacaagtctt gagaaagttt attgaatgct tacttaagta 120 aagaaggaaa caattctcat gaaccagtca cgtttgtgtg aaaccagaat gtggccgatg 180 gtgagtccac acacaacacc aggtacgtag cctattgcag ctgctatcca gctaaatact 240 tgatcttcct cttccttgtc ttcatcttgt tcttgctttg ttgcttcttc ttctccacca 300 cattt 305 119 552 DNA Arabidopsis thaliana misc_feature (1)...(552) n = A,T,C or G 119 cctctagagc ggccgccctt tttttttttt ttttttatta tatcgaccat aaattgattt 60 caatcaaatt tgctcagaga ggaaaccgtc aagtaacaaa tgtaaaagng ctaacgagtc 120 aatcaaaata tttctacttt cttttctgta ttctgtgttc ttgcttctat cagaaataga 180 agaagtagct gtatacaaca aatcattgat tctttcggat ttgtaagatg gaacgagaaa 240 gcaatttgat tcaattcaca gatggattgt aactgcagag aaccttacac ttcacctttg 300 aggagctttc acaaggacag agatatggag atagaattct gggttcatca agttatttac 360 cacccacgaa aacggtatct ctagcttcat ttctatccct tgtatcctta ccaatttgat 420 ttcacccatc tccctcgacc catctgcttc ttctgtatca tctatgcttc tttcttcacc 480 actcgtttgc nnnctgtctc ccataaactc agggaggaga cttttaatgg cgtcacgtaa 540 cgtaaagcat tt 552 120 298 DNA Arabidopsis thaliana 120 tttttttttt tttttttaag taaatactct tatctaataa atcaggggat aaccaagtgt 60 cgttagctca attggtaaaa accctacacg aagcttatag gtcgccggtt cgagtgacac 120 ttgaaacgaa actaatatta catgttgtgg tttcgggcct ggaagattac aggcttcggc 180 ccagaacctc ctggtattaa aaaaaaataa aaaataataa taattcaggg gatatagcaa 240 catttttacc aagtattgtt aatgttcatc gcgcttccag ttctgtttgc gttgcttc 298 121 354 DNA Arabidopsis thaliana misc_feature (1)...(354) n = A,T,C or G 121 cgaaaactta aaaagatcca aatcggaatg agggtacaag taaaactagt tgnangataa 60 acggcattga taaaaataaa tgatgagaga gagagatcag gcgtagtagt tcaagcttgc 120 tttcttcttg gcctggactt ggatgatacc ttcattgaag tcttcatggn nacctctgtg 180 gcatcacggc gaagagctaa catgcctgcc tctacacaca ctgctttcag ctgagctcca 240 ttgaaatcat ctgttgatcg tgcaagctcc tcaaagttga cgtctgggtg gacattcatc 300 ttccttgagt gaatctgcaa gattcttgct ctcgcttctt cggttgggtg tggg 354 122 405 DNA Arabidopsis thaliana misc_feature (1)...(405) n = A,T,C or G 122 tttttttttt ttttttttcc aatgaattac agtatattac taaatgtaac atgaaagttg 60 aatttctgga tttttttatt attgtgagat accttgcatt tatataacnn ngatatggat 120 anaatcatat aagtcttgtt atcttcaatc atcctcatcg tccttatcaa gtaccatctt 180 cagtttcctt ctactaagcg ggctttgagt gagggaggca ccaccagctg cagagtcatc 240 accccaatct gctaactcgt catcctctag ttcattatct gatgaaaggt ttgnancttc 300 tggcaatgaa gttgaaggac cattgtcgct gatgtgaacg tctgtttcag attgtctact 360 ttccctggtg atgtagcttt gatcattgtc ctcttcttcc ccagc 405 123 108 DNA Arabidopsis thaliana 123 tttttttttt ttttagaagg aagaaatata acgctttaat cgttttcgtt tgtgacaaat 60 aaagcgtttt atttgctctg ccctttcaca tgataaggaa gatgtata 108 124 334 DNA Arabidopsis thaliana 124 aaaagtgatt attagaacat tacaatgttt aaacgactaa ccaaatctga tacagtacaa 60 ccgattccca tgggattaat acttacgcta agatcaacac tgaaccatct tagacgtcgt 120 cgtttaacaa catacactag tcatggcaag ctacattact taagtgagaa attaaaaaaa 180 accttcaaaa tctctagatt gtgaacctac tatatgtaca gaaaccaaaa tgcatattta 240 tcccaatcaa tcagcagaag cagtccattc ttccggctgc ggagagaaaa aaactcgccg 300 gaagattgga ttacgacgaa ggtgagatag gatt 334 125 179 DNA Arabidopsis thaliana 125 aggaaaagaa ttcagaggct attgactgaa ggttaaaaag agcgttgagt tttctcccag 60 gcactttctc caatgcagtc tattagcagt tggaaacttt tgaaaaacca gatctcagct 120 acctcttttt actaaaacag aattatccaa cagttccttc caaaaatggc tttacatca 179 126 106 DNA Arabidopsis thaliana 126 atgagactct aactcatttg ctggactagt cccatctttc tttaatctcc ggttactctc 60 ttcttgcagc tgaagtaact gtaaagctcc tttagctgca ctaatc 106 127 566 DNA Arabidopsis thaliana misc_feature (1)...(566) n = A,T,C or G 127 ttcgcggccg cataccattg atccggattc cataataaga acagaatgca acacaataca 60 tatcaaatca aaaagtaact gcactaaata aannntcttg cgagccaaga ctttcaagcg 120 ggttgagaag tcattagttc gtaccacccc cttgtttttt tcttatctct gtagaggata 180 tatccatccg gaatatatct gctggaattg aaataaacat gtcgattatt tcctctggaa 240 tatcaacatc ttcaagaacc ttaaatacac catctacatt gcggccacca acaaggaaag 300 tgcaacctgt ccgtttgcaa tcaccaagta tctccaacat ccttttgatg cttccttcat 360 agtactttgg attgacaagc ctcgctgcag tgtcagcgcc aattacaaaa ctgcttcctg 420 ggaagagttc agctttcttg tagaagtatg gctgatttga aactattatc gtctttccaa 480 ctacttcaaa ttgcttgaca cgatctttaa tctgtgcaat tgtaagcggt ggtttgtcgg 540 catttattgc ggatatttca aaacat 566 128 360 DNA Arabidopsis thaliana 128 tttttttttt tttttttttt ttataagtat atgttctcta ttatacttga tccaatcatc 60 tggaagtcca agaacaattc ttgaatcaat ggacaaaaca atacatgtaa catgatgagt 120 atgggggtct attctaagct acaagccaca tgaagaatgt tggccaaaca gtgagtgcaa 180 tcgaagccaa agagtaagtc cagagcataa tcactgagca ttcactctcc ccagttccaa 240 ataactgagt aattgtacct agattcatgg ctggtgggac agcatattga agaagaagaa 300 cgaattggta taagggctct gatgtaacta aatccaactt atatgctcct cttacgatta 360 129 332 DNA Arabidopsis thaliana misc_feature (1)...(332) n = A,T,C or G 129 tttttttttt tttttaaaac ccaaactaac aacttaaatt caaagcaaca tttacattaa 60 tagtagtaga aanaactttt gcatattcat agtattataa aagagcatat aatatacaca 120 taagcacaaa agcattgaaa ggcacacatt taaaccaaac caaaggtgtt ctctccactg 180 taagtcatgt agagaaaccc atcttcgtct ttgttctcat catagattgc agacatcatt 240 gcagcagttg gaggcaatgt gttcttcaca aagacgaaga tcgccttttc ggcactcagt 300 ttgattcttt tacggacaac atacacaaac tg 332 130 389 DNA Arabidopsis thaliana 130 cgataagctt gatatcgaat tcgcggccgc gtccaattct gtggaaacag tagtgataga 60 gtagataggt tctcggtaac ttcaggtgca agtcatggag agtatgtgat cagattaagc 120 ccatctctca cggaaagaaa aaagtttagc aacgccgtgg aatctgcatt gcgacgttct 180 atggttagaa tatggctatg gggagacgag tcaggagctt cgccggagct tgtggccggc 240 atggtggagt atttggccgt ggagagccga aaacgacgtc actttgaaaa gtttggtggg 300 aattggaagg ataaggaaaa gtctgtgtat gtggttagct tgttggatta ctgtgaacga 360 cgtagcgagg gtttcatccg acggttgaa 389 131 401 DNA Arabidopsis thaliana 131 tttttttttt ttttttaatc tcgaataaat tttaagactc caaaaaagtt aaaaggtttt 60 agctcttctt catgttttta tatagaagaa ttgttctttg tgcttaacca gagtttgaac 120 attgtctaaa tacttttgat atagaaaatc tccattgaac ccaaatgagg taaacttgac 180 tctatcattc attctcttcc ggcccaaaac ttctctgttc tttttttaag tcctctcttg 240 acgtttgcga ctgagcaaga ttactagtct aaactgacat aaatctaagc gcagtgcgca 300 tatggtaaga attatttcag gtgaaaatga tcagagttcg tcgtgattct gaggtttgtc 360 ttggttcatc aacttctcga gcttctgttg tagttcttta a 401 132 469 DNA Arabidopsis thaliana misc_feature (1)...(469) n = A,T,C or G 132 cactattttg agtttttttt ctttcatatc aaccggtttc ggatggtaca gacaaagacc 60 aaaaactcat tcttttttga agtgagatgt aatanaatta aagttttgat acaaattaat 120 aagtgacacg aacgcctgag taccgaagaa tctctccaat gagttctcct ttaccggaac 180 caacataacg gccacgaatc tcgccgtctc taatgaacaa gaaagttgga acttcgataa 240 cattcatgtc cttgagaaac tccatacaac tatcgttctc gtcaccgttc attctagcga 300 atacgactgt ctcggacatt gaccgggaca gtttcagcac ggtcggatac actttaacgc 360 aaggaccaca atgttttaga ccaacgtcaa gcacgatcag cttgcctcca gtgcgattct 420 cgtcgatcag cttttccacg tcaggtcggc cgtgcagctg caccaccgc 469 133 287 DNA Arabidopsis thaliana 133 cgataagctt gatatcgaat tcgcggccgc caatcataaa gtgtaaggaa tacagaccaa 60 ggaactaaaa ccaaaacaag aaacctaccg ttatggtatt aatgtacaaa acaagacatt 120 aaattaagcc ataacaaatt gaaacagtag tagtccatat gacatcacat gaccacacaa 180 gccgccgggt tctcgtcgct aaatgcagtg gtgtagcgga cctcggtgga gctagcacga 240 gccagctgcg acactccggg gtcgtcgact cttcggacat aaccgga 287 134 373 DNA Arabidopsis thaliana 134 tccttcgcag gattgtacca ggctgtgaag agatcgaaga cgaggaagcc ttgtttctca 60 agtcaattca gcatctcttg cttctcaaat ctcaggttaa tttacttaaa aagctagctg 120 atgtatgtgg agtctaatta aaagaacgta agttctcaag ttgtttatgc attacattat 180 aagatcaagc gagagagaca taagaaaaca gaggagggga taaagtaaaa ttacacagag 240 aaaaacgatg aacaaggcga tgaatttttt tagtttttgt tgtagaaagt gagagcgtaa 300 tttgtactta aggaggaaga agagagagtg agcatgtgtt ggatcgttgt gacccatgtc 360 ttgtaacgat tgt 373 135 299 DNA Arabidopsis thaliana 135 ttcgcggccg cgctcgaatt gggtcggagt cttaggattg cctcactaca acatgaacga 60 catgccagct gtctccttcc gtgtggcgca acatcttgct cagatcaaac acaccggtaa 120 attcaggatg tatgattatg gaagcagatc agctaacatg gaggtttatg gctctcctga 180 accgcttgat ctaggggagt cttacaagtt catcgatgtg cctgtggatt tagtagcggg 240 aaggaacgac aaggtgatcc gttcctctat ggtgaagaaa cactacaatg tgatgagag 299 136 157 DNA Arabidopsis thaliana 136 tttttttttt tttttttttt tttttttttt tttgtattaa gtattaacat tagtagaatt 60 ctctgaacat aacttaaaat caaaacttgt atctactaat tatgggaaaa tagtctcaaa 120 ttgaatctga aaaagaattg caaattttta agaaaaa 157 137 414 DNA Arabidopsis thaliana misc_feature (1)...(414) n = A,T,C or G 137 ccgcgaaaca tacatagagc aaataaagga agataatcat tttactcttt gtagatcaca 60 catataacac tcttaccaaa cagtaagatc tctttcttag ggatcaattg atcttcttcc 120 accttcccag cttctctttg cccttacgag ttggaatggc gtgagnattc tcctcgacag 180 acactgcctt aaatcctata ggcaccaaca cctcttcgaa ggtagagaca tctactttgt 240 agggaggtcc accaacgtgg tcggtaatcg gatacatgag agttatgagt tcgccgtcag 300 gttttaagag ttcatacata gatttagccc atgcaggtct catctccggt tcaatggcac 360 agaagaacac ataatcgaag atgaggtcga ataattcagt aggacgccac gtga 414 138 314 DNA Arabidopsis thaliana 138 tttttttttt aaaagtttaa actcttgttt tttgactctt ttcaatttcc taataacttg 60 atgtcagaat cagaatctca taacaaaaaa caaaagagac aggtttgatt gagattgaaa 120 gaggaagatt aatgtaatgg gaattgaagt gcagaagata tggcttggag aaagagagga 180 tgcacatctt cacccgagaa cacttctgac tccaacttct ccatgtgagg ccatatctcg 240 ctcgcatatt gccttgtaaa tgccgtgaga tagccaagtg ttgataagca ccactgttct 300 ctctcaccga cttc 314 139 332 DNA Arabidopsis thaliana 139 gctcatctcc ttttttgatt ccttgactaa attataaatt agaatgataa aatgataaga 60 gtggttagag actctgattg agacacaaag tgatatcctg gaacaccttg agcctcttct 120 tgtccacttt ggtttctgtt cctaaaacag cagccatgat cgcatcttca aagtctttat 180 tgtctggtaa tccacactcc gttgctttct tctccattga caatctcctt ctcgtgcttg 240 tgtttgtctc tccctcatga tcaccaccaa taccactcaa catccccatc ccttggctcg 300 acgatctcgt tctcttcagc ttctcgttgt ta 332 140 555 DNA Arabidopsis thaliana 140 tttttttttt tttttttttg atctgaaaac ataatccatt ggctaattga tatttctgat 60 gtacaaaaga ggagcatcta cctcaacaac aaaccctaaa ttttctcagt cgatttccga 120 ggaagacgat gatgagaaga gagagcgagc gagtcagctt tacagagagg attctaaaaa 180 aacatttgaa aaaaaaagag agagaagaag gtttcggttt taaggctgtc tcgcttgccg 240 gacgacagac caatgatctg tctccacgtg gacaccggat tacgccgatc acagtttgag 300 aaatcgggca agctgggcag gattgacgat gccgggcagt tgggccccat ctgaccggag 360 aagattagca acctccctat acctcttccg tttcggctca cattcctcag ccggctcaac 420 agtatggctc ggctttatct tactggactc ggcttgggct cgagcctggt tccattgctc 480 tccgaagagt gtgccttggg tgaggtactc gtggctcaga taaccggcta acatcagttg 540 gttcgagccg atcgg 555 141 193 DNA Arabidopsis thaliana 141 ttttttttat cagaaaagtg aattgagtag ctttcaattt tattttggaa ccaaacaatc 60 acaagaaagt gggtcaaaca aataacaaaa atgtcgactc tgctatcata atagcaaagt 120 gacataaaag ccactctgaa ctcaaagctc acactaacac acaacctaga aaggcaattt 180 atatatttgt ggc 193 142 102 DNA Arabidopsis thaliana 142 ggatcctcta gagcggccgc cctttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt tt 102 143 109 DNA Arabidopsis thaliana 143 aaatagtatt ctgaaattac tattacaccc aaatagtttc ctttattccc actcacgtct 60 ccttcttcta gaaccctact ccggcgccgc cgacaccgac ggttgccgg 109 144 276 DNA Arabidopsis thaliana 144 attcgcggcc gcatttgaac catcaccaat gtgtgaatgt attaatagaa gccagagaca 60 atacaagctt ctctaattct acattgataa agaaacaata caacagacct aatcaaagca 120 tttcactata tcatcaatgc gcgataaaag cgctatagct ccagttttgt acagttttac 180 agccctcttc taacttctgc ttcagtttat acagtatcct tgctcgtctg ttgtttggtg 240 gtctcagcca attgatgtgt ccatggtgat gaggat 276 145 230 DNA Arabidopsis thaliana misc_feature (1)...(230) n = A,T,C or G 145 tcgagtcatt tgatggctgt gggagtatta aatcatgagg gatccaaacc tgagacaatt 60 gcctctagat ggtgtcacaa ggtccaactt tgatacaata aaataaaaca atcgaaggga 120 gaaaactttt gtctccgact tgagttccat gtctttnntt aattgatctc acgaaatgaa 180 tcagcctctg ggcttgtgca gacgaggtcg gttacagaag atcctgccat 230 146 257 DNA Arabidopsis thaliana misc_feature (1)...(257) n = A,T,C or G 146 cttaggtctg cagcggatag tgatgcttta tctagaactt tacaggagcg gtccaacatg 60 ctggtaaaag tcagnnngga gaagtcaaga gctgatgccg agatcgagac cctgaagagc 120 aatctggaaa tgtgtgaaag agaaataaag tctcttaagt atgaagtcca tgttgtttct 180 aaagagctag agatacgaaa cgaagaaaag aacatgtgta ttagatctgc agaatctgct 240 aataagcaac acttgga 257 147 472 DNA Arabidopsis thaliana 147 tatgtcttaa gatcttacta caatccggaa cacacacttt tgtatgtctt aaattactaa 60 agcataaacg aaaaaacaaa acactcttct cacttaacat tactaagcaa gatcctatga 120 agctgcaaaa ctttttaatg ggcaagagat gttgatagga gcaagttgat caaggaaacc 180 gaaactagag tcagctagct gaagatcttc aacatccgca aagtcgaaat ctggtaacgc 240 acttggaccg ttatcttcga atccttgaat gtcatcaagc aagccgaaat catcaaactg 300 atcatccgcg aggaaacaat cgaagtctag gtcttgttgc tcctctgcca agaaaccaaa 360 atcagggatc tgtagattag taaagtcgaa atcgaacaac gtttccttgt ttccaccagc 420 aggaacattt ggagttggag cagttggagc aacggtcgag acgtcatcag gg 472 148 231 DNA Arabidopsis thaliana 148 tctagagcgg ccgccctttt tttttttttt ttgaaactaa aaagatatct caatacatat 60 atcctgtaaa gtgtcacata aatattccat acaaaacttt gaattccaaa ctattgaagc 120 actagagaga tccacagaca tacgttgtaa atttacttat tatcaatgat tctcaactca 180 aatacatgtg aacaaaaagc tagcaatact ctcaagcact gatgttttcg a 231 149 235 DNA Arabidopsis thaliana 149 cctctagagc ggccgccctt tttttttttt tttttttttt tttttatcac aagagcataa 60 cgattaaact caatgcataa caagaggtgt agaagtattg atacattcct gtaatgtcac 120 tagcaatctc aaacaatcat gatacatcat atttctctca tggagccaaa atccccggct 180 ggtggaaaaa taatagtttg cgcaagtgtg tatgattatt tctattgagg tgaaa 235 150 172 DNA Arabidopsis thaliana 150 atcctctaga gcggccgcgg atccttgtag aactccggca gattgtggag cttgtaaact 60 tcattaacag catcaatttg cttacttatc tcggatagtc ctgaagtagt gatttccaaa 120 gaaaggaaag agcgagtatg gtcatcattc acaaagactt cccacttatt ga 172 151 229 DNA Arabidopsis thaliana 151 atcctctaga gcggccgccc tttttttttt ttttttttaa caaaaacata actttagatg 60 tcaaagtaga gcatagagac caaaacaaaa agttacaact atatctctga tttcttattg 120 tgcggtgtaa tgatatgagt cacttcacaa gccaatcatc atggcttcat tgcccgtgaa 180 agcaaatggg taaggcaaac acacaagcaa ggagagaaac aaaaccagg 229 152 437 DNA Arabidopsis thaliana misc_feature (1)...(437) n = A,T,C or G 152 agaagagcta tgacgtcgca tgcacgcgta cgtaagcttg gatcctctag agcggccgcc 60 cttttttttt tttttttttt tttttttttt tttttttttt tttttttgga agcaatactg 120 cattggtgat ttctctctct ctgcaaactt tgtggtatcc ggtctgcatc ctaggcgagg 180 caaaaaagct tccaactcga ttcctgcaaa catcccttgt cgactcgact gtcttgacaa 240 gctacagttt ccttcagacc aattccatcc tccaaatgcc acaagagcgt gccgccaggt 300 tgattcgagg tgtcgaaaca gcggatgacg cgagnnnttc cgcaacgtgt ggtttgccag 360 ttgtcatggt gggtgggtgg cagatccagt aggccgagtt gaggcgagtt gtttacttgg 420 atctagccct catcttt 437 153 236 DNA Arabidopsis thaliana 153 cctctagagc ggccgccctt tttttttttt tttactaact aaatcaagtc tattgagcac 60 tgcaaactgt gtctctttag tgaagttgtc atattgaaaa acttgatctt gaatcggaga 120 acacagaacc aaattatatg tttcttcagg tcactggaaa aacatataat ttacattggc 180 ttaaagatgt ttcagatcag gaagtgaaga acttggtcgt ggcttttgct tcatca 236 154 253 DNA Arabidopsis thaliana misc_feature (1)...(253) n = A,T,C or G 154 ataaaccaaa cttgacggca tttcactaga acttaacgga gaagatgaaa accatgtttt 60 actgataact aattcttgcc aagcaattat cagttggtct ggtatgaggc agatacatca 120 ctggacattc ggggttgctc cgtttcacct gatatttgag gaggnnntga tgaagaaaaa 180 ttgaaatctc gagcttagcc agatcatttc ccgggcatag atggcttcca gcaccaaaag 240 gaaggaacgc acc 253 155 157 DNA Arabidopsis thaliana 155 tttttttggt ccaaatatga tcaatcaata tgaagttttg taaacactga aatgcctctt 60 taaggaatat catcgacatt caatacaaat ttccaaaaga taacatgtca ctagagtcgc 120 aagcttgtac caagtgaaat tgaaatgcaa ataggca 157 156 122 DNA Arabidopsis thaliana 156 cgattattta ttgaatctga agaaaacgtt aggggaaaga gaatcgaaca acagaagttt 60 tcaagaaatt gcaagtatct tatagcttga gtaatcttaa ccacagtaaa taaaggctct 120 aa 122 157 314 DNA Arabidopsis thaliana 157 gataagcttg atatcgaatt cgcggccgcc aaatctttta ttaaggagtt gaatatatct 60 agttttcagc tatgaaacca aaaactgaaa gcaggagaaa agttgttaaa gcaggagtga 120 cgagccttgg tcctgcgcta caacacaaaa cattcacatg taaaaatgct tttctcgact 180 atgatgattg tttaccttta acctcatcaa tggagccaaa atgtctccgc attcctttag 240 cctcaatgtt aatacttcag taacagacag ttgcgtcttc aacttgtaac ttcaatttgc 300 tcgatttcat tatc 314 158 479 DNA Arabidopsis thaliana 158 tcgataagct tgatatcgaa ttcgcggccg cccactaaaa cccctatatt tccatttcta 60 ccctttttgc atcatataca aagcacatta catattcaca tatttgccca agtagtagga 120 caacaaaacc taacttaagg cctttctttt tttgctaaca caagcaaaag accatttctt 180 ttggtatacg aggaaagata agagacagaa gaagcctctg tattagctaa aacctgtgtg 240 taatctcggt tcttatccca ttggagatcg gtgaggaatt ccctttcttc gcttgacgat 300 tctgcagtta ctagatgtag taagtggagg tgttgatggg ctgaaactct ggagatttgt 360 aatgttcttc ccaattgcaa tgctgctact tgaatcctct gtttccatta gcaggttctc 420 ccttcccttt tcaaagcctc ttgatgttcc agcaatcttg cagccaagag agcagaagc 479 159 479 DNA Arabidopsis thaliana 159 cgataagctt gatatcgaat tcgcggccgc tttacacaac aacaacaaca acaataataa 60 caacaatctt cttctccaac atgtctctat atcttatact catatagtta catatagaaa 120 tcacacctct atgggtttta tataagtaac attcatatat atatcttaga agatctttca 180 aagtagactt acactcagct tgttccatag tccaataact cccacctgaa cggttgaaac 240 acatagagca cttccgggca actcttaaac agaagtgcca cacagacgca aaccgcagca 300 atcgccacca ttgacaacat agctggtctg tacgctacag acctgcgtgt tgtcccatac 360 accagtttat ggtcacagag cttgcatgga atctgtgtga tctccaaggc tgaagccatc 420 ggacctgatt ttggttcttt ctgctctctg tctgagaaag aaactgggat gttgaccac 479 160 101 DNA Arabidopsis thaliana 160 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttcca aaaaataaaa a 101 161 367 DNA Arabidopsis thaliana misc_feature (1)...(367) n = A,T,C or G 161 aattttcaca tattactgaa ggaaaaacga acaattcaca caggatgatt cacagattaa 60 tnnntgagtt tgtcgaagct taaagaattc aacaaataca gataacaaag ctttggtaga 120 atcaaatgac ccagaaccaa gcaatgacag atccagaggc caaaccaaca accaagaaca 180 tcacagtgac gattcctgca gtctccgagt gtctcagtgg aaccgatttt ggagccagaa 240 tcatcaagac gcttgncaag tacccgttgg taagtcccaa taagcatgtc agtatagtta 300 caggaatctc agtcctgaga aacatcggac cgtgcaagca accccagaag agagggtaaa 360 acaagag 367 162 371 DNA Arabidopsis thaliana 162 gggccccccc tcgaggtcga cggtatcgat aagcttgata tcgaattcgc ggccgcaaaa 60 atggtactaa gagaaaaagg atgaagacaa agttatctgt acacaagaga cgatcaagat 120 tttgtatgga ttccaagaat aactttgacc cagaaaaggg gaaacaaagt agatacaatt 180 gtaatgtatt agtgggtaat ttataagatc tctcccctat tctctctata tcctctctaa 240 tatacaactt aatgctaaac ccatcttctg atgatgacac agccgaatca aaactgaacc 300 aaaagtctat cagatgctta ccgcaaatct catttccaac aatcacactc tcgaaaagat 360 tttactctaa c 371 163 113 DNA Arabidopsis thaliana 163 ggatcctcta gagcggccgc cctttttttt tttttttgaa tcacataatt gtcaattaag 60 gaagataatc caaagtgaca tttgggaaaa tcaaacagaa tacactctaa aaa 113 164 171 DNA Arabidopsis thaliana 164 ttgatatcga attcgcggcc gctgctgaag gagcaactcc cttttttacc ttaaattggt 60 caaaatactc ggaatttctt acttttcgtg gcggattaga tccagtgact gggggtctat 120 ggttaaccga tatagcacat catcatttag ctatcgcaat tcttttcctc a 171 165 189 DNA Arabidopsis thaliana 165 cctctagagc ggccgccctt tttttttttt ttttttttta agaaaactag gctctcataa 60 atttcccaag tatgaacatt tgaatgttgg caaattgcac ttgtgtcaga tgctcattaa 120 gaaatctaca tcatttgcaa aaaaaaacac aggagaatgt acaactttgt ctcacagaag 180 aaacgtaaa 189 166 377 DNA Arabidopsis thaliana misc_feature (1)...(377) n = A,T,C or G 166 cctctagagc ggccgccctt tttttttttt tttttttatg aaaaatgaaa ttaagttgaa 60 cctttgaaat gttttagaaa tgttaaatgc gattgtaccn nntagttgca gtaaacacta 120 ttgaattcta agtaacaata ttggtgtaag tagtgatata attgtaaggg atgttgcaaa 180 atgcactaat ctgatcctaa ttgtaatcat cttgcaaaga aaaaaaatgt actctctctc 240 agccgccatt aaagctaaag cttgatatgg ttagaagggt ttcttcttca gaccattgtg 300 tctaatacgc ttcaaatctt gagatcttct ctttaatcct cttcggaaca aatagacaaa 360 gctgtaatag agaagaa 377 167 168 DNA Arabidopsis thaliana 167 ggatcctcta gagcggccgc cctttttttt tttttttttt ttttttttga gacgaaactc 60 catcagacca taacagatta tagaattgag aaagtgcaaa ctcgtagtat ctacatttcc 120 acgtgtgagc cgatcgaatc aaaaggcatt aaaaatgcaa tgtactaa 168 168 482 DNA Arabidopsis thaliana 168 tttttttttt ttttttttta atgaatttat agacattata aaggactttt ttcaagataa 60 tattgttata tttggttcat ttttttcttc ctacatcaat caaccaaatg taggaacatt 120 tgccatgtac aaaatgagac cattacaaac aatgtaccaa ccaactgttg tgtgaccaaa 180 aatcttaccc tgagagtctg attttgttgt tcgcttgagt ttctttgatg actttagaag 240 caaaacctgg atcacaatta aactccagcc tcttcaatcg cagcagacat tgaagctgat 300 gcttcttcta gcgttcgcct cttttgaact gcgttaaagg cctcgatgat gtctccttct 360 atccaatcat cgtagtcatc cataccaata ccacattcta atccagcact cacctctttc 420 acgttttctt taacccgttt aagagaatca agaacaccga catggacagt tttacccttc 480 cg 482 169 248 DNA Arabidopsis thaliana misc_feature (1)...(248) n = A,T,C or G 169 atcctctaga gcggccgccc tttttttttt tttttgattt gtaacagatt ctgtgtttga 60 ttgattgatt cagttctaca aaacaaagta tgttcaaagt gtacattgta caatgacaat 120 atatatgtgt ataatataaa gtgtttgaat caatgaatgt attagtgaaa canagtaaca 180 tttgagatat ttgtgcaatc agctgcttct gctatttgga ttttcattga acaaataatc 240 aaaacgtg 248 170 314 DNA Arabidopsis thaliana 170 tttttttttt tttttttttt aaccagcaaa cctcaagtac tgtttgtatt catgcatcct 60 cgtcgacata taaccaacca aacagaaaaa aataaagaaa aagaactcac caaaaacaaa 120 agccaaatgg ctgaaaactg gctgctccaa atattgatat caagagagct tgcttataca 180 gatgcaaaaa ccgataagcg tcttacgaat gcaaagccat gaagaggttc tgcttacggg 240 catgctctgg gacaagcctg ttcacgattt caggaggtat gccagatagc tcttgcggtt 300 taaagttgaa aagt 314 171 255 DNA Arabidopsis thaliana 171 ggatcctcta gagcggccgc cctttttttt tttttttttt tttgagttca aacttaatat 60 taatagcgca aaaggtccaa aatatagctc ataacaatcc gaaaagataa gttttaaaac 120 aaaagtgact cattgaaaag ctgcaaacta aagcatggtt tgttctgaaa ctggaaaaca 180 gagcatagta ttaactatca agcttgttga gcagaaagtc tcttcctggc ttcctcaatg 240 atggtcaact taata 255 172 118 DNA Arabidopsis thaliana 172 gatgaattca acaacaaaag gtgttcaaca ttgccaaaga agaaagcaat acacaccaca 60 aaacgtagct aagaagaaca caagcaaatc ataaaccgac tagacaagaa acagaaag 118 173 154 DNA Arabidopsis thaliana 173 ttttttttaa aaacataagt atataggttt cgattttatg aacatatccg ttcattgtgg 60 attaattcaa actatcaata aatgtggcaa caaattaagg aaaagaaaaa agaaagaaaa 120 ataaaagaac atccttaatt taatattatg tatt 154 174 479 DNA Arabidopsis thaliana misc_feature (1)...(479) n = A,T,C or G 174 taagcttgat atcgaattcg cggccgccct ctccaatggc ggttcttccg acatggcttt 60 tagcaatgat gtgtttactc ttcttcgtcg gagctatgga gaacactaca cacgacaaca 120 tctcttctct ccctagatcc gacgaaaccg aatggaacca acacgcagtg acgaatccag 180 atgaagtagc ggacgaagtt ctcgccttga cagaaatgag tgtgagaaac cataccgaga 240 ggaggaaact aggttacttt acttgcggaa caggaaaccc tatcgacgat tgttggcgat 300 gtgaccccaa ttggcacaag aaccgtaaac gcctagcgga ttgcggtatc ggatttggaa 360 gaaacgcgat cggtggtcgt gatggacgat tctacgtagt cactgaccca agagacgaca 420 atnnggttaa ccctagaccg gggactttac gtcacgccgt gatccaagac cgaccacta 479 175 514 DNA Arabidopsis thaliana misc_feature (1)...(514) n = A,T,C or G 175 aaacactatt tattgataac acaagtttct cacaagtaat taataacaaa cagcataaca 60 aacaaaacaa gaaacatata tagaaaacaa acgacttaaa acataaacat cgataaaaga 120 acttaaaaca taataattat gaacctttcg accgatcttt ggtttataga gagcaaanna 180 acaaananna aaaacgttta acatcaatgg tgaggaatta cgccaccgca atcgcttcca 240 ccgccaattc cacccaaacc accaacaccg cctataccgc ctagaccacc tgcaccgccg 300 agtccaccga taccactacc aataccaggg tcaccaccaa ttccacctac tccatgacca 360 agacctgaac caccacctag accacctaga ccgccaagac cacctacacc accgcctaga 420 ccaccaattc cgccgcctac accgccaaca ggcaaaactc cggcaacacc accaactcca 480 ccggcgacac caccaagacc agctccaaca ccac 514 176 109 DNA Arabidopsis thaliana 176 atgggataca tatggtttcc cgttagattt aactcagttg atggctgaag aaagagggtt 60 actggttgat gttgatggtt tcaacaaagc catggaagag gcgagggaa 109 177 482 DNA Arabidopsis thaliana misc_feature (1)...(482) n = A,T,C or G 177 tttttttttt ttttcttttt tttttttttt ttcgaaccac gtaagccatt ggatattgtc 60 ctgcttcttt gtccggaana ctttgcagta cgtacacaaa agcatacata catgaacatg 120 ttgtgtttta cgtttataag gcaaaaatca tggcgtttaa attggaggaa aaaaaaagtt 180 atgaaatatt ttacggaata acggcggcat cgagaatgtc cggatgagta atcagaagag 240 cttctagttc agctggaggc acctttagaa atagaagggc ccttgagcca gagctctccc 300 gtttggttaa ttcccatgaa ccgacccgta ttcggatcca cgatcctcgc ctccacatca 360 gacgtcaacg tccccgccgt gccatatctc cggctctcct ccgctgaatt cgtgaaagcc 420 cctccgccgt tggattccgt caaagcatac ccctgcagta tatcaaccgt cggatatttc 480 tc 482 178 486 DNA Arabidopsis thaliana misc_feature (1)...(486) n = A,T,C or G 178 tttttttggg atcagaaaca gattacattg acagtttgat caaacaagta agttatacag 60 ataaaaatga attcctctac attatctgca tcatcctaac gcaaagcgtt tctcttttct 120 tataaaaatc cagataaaga ttgtgtcaat atatctggtg tagaagtgta gtcaaacgcg 180 ctattccttt acctcatagc gaccaaattc cccatgaaac caccgcttat ctcataatgg 240 caggcacttg agaagccagc ttctagagca agagtctcta gctcttctcc tgttagatag 300 ccattgattg aatacttgag atattcatac tcctttgcaa gatcataaac agtagccaca 360 gggacaacta cattgtcaat catccagccc tgcataaacg tagtaacgga ttggttgctc 420 ttattgnnnt caagtataga tactcttgaa cctggtttca aaacccgata catctccttc 480 atagct 486 179 335 DNA Arabidopsis thaliana misc_feature (1)...(335) n = A,T,C or G 179 cctctagagc ggccgccgac tagtgagctc gtcgacccgg gaattccgga ccggtacctg 60 caggcgtacc agctttccct atagtgagtc gtattagagc ttggcgtaat catggtcata 120 gctgtttcct gtgtgaaatt gttatccgct cacaattcca cacaacatac gagccggaag 180 cataaagtgt aaagcctggg gtgcctaatg agtgannnaa ctcacattaa ttgcgttgcg 240 ctcactgccc gctttccagt cgggaaacct gtcgtgccag ctgcattaat gaatcggcca 300 acgcgcgggg agaggcggtt tgcgtattgg gcgcc 335 180 485 DNA Arabidopsis thaliana 180 ttttttttcc gaaatatcat atcattcact aattaaacat acttaggcaa aagccaaata 60 tacttagctt taaaacctaa tttgatcccc aaaaaacacc atcagggtct attttacaag 120 ttccgaatcc aaacaagaga actgaactaa gaagtctaag aacctcagaa ctcctgagaa 180 gcagatccaa tatctccttt gttcttgcca accttggatg gcaaaagagt ctgatgaata 240 tttggcaaaa ctcctccatt cgcaatcgtc acacttccca gaagtttgct taactcttca 300 tcgttcctca ctgcaagctg aatgtgtctt ggtactatac gtgtcttctt gttatccctt 360 gctgcgtttc ccgccagctc caacacctcg gcggcgaggt actcgagaac agcggagaga 420 tagaccggag ctccggcacc gacacgctcg gcgtatttac cggatttgag gaatctagcg 480 attct 485 181 445 DNA Arabidopsis thaliana misc_feature (1)...(445) n = A,T,C or G 181 atgacatatt taacaaagca tatagaaaat gatgaactcg tttttaacag agaaagaaaa 60 tctacagtaa caaatacagt tctccattat ttatgttgat aaaagagagt gagagagata 120 gagagtgaag cacaaggcat atgcagaatc acaagcatat tnnngtaaag agannaaagt 180 gagaccaaag atttgtttta gctcactttt agacttttag taatcaaaag gccagccact 240 gtaacccata tatgattgtt gatgttgctg ttgatggtag ttatggttct catcgcttgt 300 atccgagttt cttgtgcctc cacggttttg agtggagctt gagcttgaac ctgacgaacg 360 gaatggccag aaggaagaga aaggattcct tctttcattc ccgttctcac gactgttact 420 actactacta ctactactgc ttctg 445 182 550 DNA Arabidopsis thaliana misc_feature (1)...(550) n = A,T,C or G 182 tttttttttg atagtggcac ttaatttcac tagcagagca caacagattc tttacttttt 60 ctctacaggc tttggtcatg aatctaaatt taatttcaaa agcttaatgt acaagcaaaa 120 cttaagacgg taaactaaaa actctttcta tgcttgtccc taatgtagat aacaactcat 180 gttgtgaagc aaagggttcc tgaagataaa taatgtctac ccaaaatcat agttttcctg 240 atcaagaatt attaccagca gagttgtttt tgggaccttg aagctccatt ggagaattag 300 tgatgctacc aacagaaccc attgtctgnn ngctaagctg tggactcgct ggacaaccct 360 cgaggttgct tgtgctcatg ggatgcattg cacccgagct tatctgagga ctcataggag 420 ttctttggtt cacttgctgg ggactcattg gagtnntctg actcatttgc tggggactgg 480 actgttgtag ctgctgttng gtaattccag ctgatggtga ccctacttgg ggtggtgata 540 gtacagactg 550 183 368 DNA Arabidopsis thaliana 183 ttttttgatg aacattggca agctaaattt aaataactaa attttacaat tttggttctt 60 caaactttag agaagaaaag aatccaacgg tcaggttcaa ctccaacccg tctgtttcaa 120 tcatctattt tgaccgctta ttgtagctgc ctgtaacagt tcaaacccag ccactgtcaa 180 caatcaaagc caagtttgtt tccaaagatg gacacagcta agtagtcttt tttgtcctct 240 tccaattgtt ggttctaaga agtcggttaa gcgagaacgc ttctccttga ccatcgttaa 300 gcgaccgcag ttccagacag caagctgtta gttgtcggag aagtgtctct agatgagaat 360 gcgattga 368 184 492 DNA Arabidopsis thaliana 184 ttggatcctc tagagcggcc gccctttttt tttttttttt ttgatgaccc aaataggtgg 60 ctgtatatac gtaacttgga ctgattcact attagcatac aaatggcctc ttagcctctc 120 tccttttaga accttacagg acatttctat caaacttcca tgtttgctat ataccacagt 180 ttccaaaact aaacatgaaa gttttctctt gacatgaatc agtttacact gttgagcaaa 240 tcaattgcca taagccgatg ttgacaccaa tgcagattgc tatggaggcc acagaacttg 300 gttgcggttt ctgtgaatga actctgttgt gtgttgttag ggttgagatg atgacattgt 360 tgaggcaata actggaggcg aatgcagctc gagaaaagct tttccttcgg aatagccgcc 420 tatacataga gtgtctcctc gaccatgcca gataccatca tgaacattgt tcatctccag 480 agttttagat tc 492 185 277 DNA Arabidopsis thaliana 185 aaaccgcatt gtcaccctcg atattccagg caagccctgg gatacgccgc agttagccgc 60 tgagctggaa cgctggaagc tggatggtcg cgacgtcagt ctactgattg gcgggcctga 120 agggttgtcg cctgcctgta aagcggcggc tgagcagagc tggtcgctgt cggcgcttac 180 cctcccccat ccgctggttc gcgtgctggt cgcagagagt ctgtaccggg cgtggagcat 240 caccaccaac catccttatc accgtgagtg ataaggg 277 186 469 DNA Arabidopsis thaliana 186 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttt ttttttttcc 60 cacaagctcc atcatcgatt ggtgtataag catagcatcc acactagtaa agaaatcaac 120 attgtcaata agcgtgatta caatgacatt ctaatattta taggaatttc aaacaacaat 180 ctgttgttgt cgaaagttcc gcagcatcat ctacgcttaa gtttattcct tgatgcttgt 240 gaaaaggaaa acagagctcc accttcattt cttaccctta aagcgagaag aacggcgagt 300 ggcagatgtg gatacaggag ctaggagtgg tgattcgcta cctctttttt gtcgccgatt 360 cacttgaacc ttagatcttt tgttttctgg agttgacatg tttgtatcag tggaaaatga 420 tatagctgga gctgaagcag atatggcaga cgtttcctgt tgcagttgt 469 187 331 DNA Arabidopsis thaliana misc_feature (1)...(331) n = A,T,C or G 187 ccgcggctgg gcaggtccag cccggccagc aggccgagca gggtggtctt gccggaaccg 60 gaggcgccga cgatggccgc gctggtccct tcatggacgg tcagggtgat gttgtccagt 120 atgtggactt caccctccgg gccctgcacg gatttgccga cctggtcgac ggcgatggca 180 acggacgcgc tnnnngggga caggctgtcg atgaggagac tccaatgcgc aagacgggat 240 ggagccggcg agccggcgcg atgatggtgc tgctgctagg gttcctgctg ctgcccgggc 300 tggcctgtgc caaaggtccg gccggcaccg t 331 188 506 DNA Arabidopsis thaliana 188 cctctagagc ggccgccctt tttttttttt ttttttatca tctaggaata ttggtaaaat 60 attctcatat aacatacaaa cataatattt tcaccaaaaa aaaaagaaaa catacaaaca 120 taattagtta tctagtgtat acatagccat tactaaaaga ctaaacgtca agcggactag 180 ttgaagattt taacaacaga gggacgtgct ctgcacatgg cttccaaagg cttggcttta 240 ggcattgtaa cacctttgcc ttcactcata tccacttctt ctccaatctt ctcccattcc 300 aaacactgaa tcaatgatcc aagagtcagg tttataagcc ggtgagccag tccagaacca 360 ggacacgccc ttcttcctaa cccaaacggc ataagcttct gagcttctcc ttccttctca 420 aacctctctg gcttgaagct cattggatca tcccatagct gaggatctct gtgtatagcc 480 cacacattgg tcaatagtat cgtgcc 506 189 480 DNA Arabidopsis thaliana 189 tttttttttt tttttagata tcttcttctt caccatttaa aaacggttta caagggaaac 60 taaccaacca ataattgaat atgaactcat ctatacaaca atttccttct atatagacct 120 atgtctaatt tgcaagtaac aaaacttcaa aacggtgcaa aaatgtggta agtccacact 180 ctctactcaa gaagaggtct gaggatgttg aagcctaaca atttcatgag ctttcacaac 240 ttctgatgtg aattttctca gtgccccgaa aatgggaact aaaccagctt ttaagctgct 300 cgaagacgcg ttgttcacaa gcttaatggt ttctttaccc ttacctctct cctcgactag 360 cctcttcctc attgaatcta aatccacttt caaatcatcc aaagctgata tcccgctctc 420 tgaccgacct ttcgaaacca cacttctctc tgactctgca tctcgctgct cagattgcgc 480 190 324 DNA Arabidopsis thaliana 190 ataacaggat tgatattcaa gtatgttaat aacatcatcc tcacgtttat agtctacaga 60 ctctatacac atacattgac acaagactgt ataatactta cttctccaca aacgtaatga 120 cttctctata taacaaacat catttgaaag tttggagata tttgatcttt ttgctgaaaa 180 atgttggtgg agcccttagc cttgtgcttc agaagatcag ataaaaacaa tagtcacctg 240 ttacatatca aagttcgtga aatgaagact gctacatcat agtactttgt ctgaatagcc 300 ttttgggaga ggtccttgaa tggg 324 191 477 DNA Arabidopsis thaliana 191 ataagcttga tatcgaattc gcggccgcct ctcacagagc agcaatggcg gagaagtcga 60 gcttcttcgt tcatttcagc tgtcttctgc ttcttctaac tatcataata acatgtggag 120 agggagtgag gaatccggtg aggccaagat catcggagag aagagcattg atggacggcc 180 aagatctctc gaggccattg aagctgacat ttggtgggcc ttctcgtaat tggactgacg 240 ctattcccat cggtaatggc cgtctcggag ccacgatctg gggcggcgtc tcctctgaga 300 ttctcaacat caatgaggac acaatttgga ctggagtacc agcagactac acgaaccaga 360 aggcccctga agcattagca gaagtgagga ggcttgttga tgaaagaaac tatgctgaag 420 ctacttcaga agctgtcaaa ttatcaggcc agccttctga tgtttaccag attgtgg 477 192 147 DNA Arabidopsis thaliana 192 tctcttcttc gagcttccat ggatgcaatc aaatgcagtt ccagtttcct ccatcacacc 60 aagctcaaca ctctcttctc taatcacacc tttcctaaaa tctccgctcc caatttcaag 120 cccctcttcc gtccgatttc gatttcc 147 193 436 DNA Arabidopsis thaliana misc_feature (1)...(436) n = A,T,C or G 193 cctctagagc ggccgccctt tttttttttt ttttcagaga tctcattatt ttatttcgcc 60 actgcgtaaa nnntaataca caccaccgtg ttcattctgg ttaagaaaaa cagtcatgat 120 gtcatatata aatacaaaag acctaaaaag tatttgacat tttttcatcc ttttaaggca 180 attaaagaaa aacaaaccca aagctctttg cagtcactca tctgttgaat gagcctgatg 240 agcggttact accaccggga ttcacataat ctcgctttgt aaacaatctg aatcttggaa 300 ggcatcttcc tagcatcacc ttccagctcc ttttgcgtgc aattcgatca cttatcaact 360 ccaaagtaga gatgattact ctaaatgttg gtctttttga tgcttctttg tcccaacaat 420 cctggattag ctcttg 436 194 397 DNA Arabidopsis thaliana misc_feature (1)...(397) n = A,T,C or G 194 cctctagagc ggccgccctt tttttttttt tctctaaaat attacttgta ttatacctcc 60 caaccaataa atgtatataa tatagacaaa caatgaaaca aacaccacca acaacaaaaa 120 agtaccactt ttagagttct tttagactaa acatagatca caacactggt acggagattg 180 agattgatat cggaactgag acatccgttg taaaaccacc gtctctattc ccatttgtat 240 tccctacaaa cccgtaaacg ccagaccgca tcgctgcatt ttcccgcctc tgaaaaaccc 300 gagcaagcga nnngctttcc gtctagcccg ctttgtcccc gtaaacaaaa gcgtctgtag 360 caaccccgca atcgcaggtg ctctcaacac tttctcc 397 195 324 DNA Arabidopsis thaliana 195 ttttttttgt ttaataataa aaggaaaatg tctaatatca atcccaaatt ccaatctaaa 60 aatagaaagt tatacaaggc ctatgcactt gagaaaaaaa atcccaaggg actataggga 120 ttaaatcgtt gatttgatca tgaccctata catcaatcga ctaagagaca taggctgcgt 180 agtagtagta gtagtaatat agtagctgaa caaaacggag ttgataatat taagggattt 240 ttcatttgga tgtctttttt ttttggtttt ctgtttctta taacaaaact gacacgcgct 300 tcttcttgtt gtgtttgatg tttg 324 196 473 DNA Arabidopsis thaliana 196 tttttttttg tcaagaaccc atttattttt tagccacagt ggttcaatta tagtatcacg 60 aatttccaca taatcttcca aacagaaaac tgaaagtttc gcagcacaga tatgattgct 120 ttaaaggata aagagcagtt ttgttttaga gcaaacaaaa gctcatttag tagctgtcaa 180 tgtcagtttc aggccttctc aggaagtaac gcagacagtt caccaaaacc tgtgacaaag 240 atctgtttag agcttgccct tggtagctta cgtgaaactt gtctttcgca accagtccct 300 ctgtatctat ctctgcggat tccacgtcta tgttgacatc agccatcact ttgatcatct 360 ctacgacaag acctggcctg tccgctgtct ctatgacaag caggctcctc tttggtccat 420 cttctttcac atgtatatga gttgcgatat cgacatcaat cttcttttcg gga 473 197 405 DNA Arabidopsis thaliana 197 ggccccccct cgaggtcgac ggtatcgata agcttgatat cgaattcgcg gccgcaaaga 60 accaaatcct tcactactct gtctcagctt tcgacctctc tcttctcatt cctttgcaac 120 ttctcacttc tcgaattcct tctcttcaaa atcagaaatg gctcaagtgg ttgctaccag 180 gtcaattcaa ggctcgatgt tatctcccaa cggtggatct gtgtctacaa gatccgagaa 240 gctattgaaa ccagcgagtt ttgcagtgaa ggttcttggc aacgaagcaa agagaagtgg 300 aagagtctct gtaagaagca gaagagtggt tgatactact gtgagatccg ctcgtgttga 360 gactgaagtc attcctgttt ctcctgaaga tgtgcctaac agaga 405 198 400 DNA Arabidopsis thaliana 198 tttttttgat caaacacaac tcaataatat aactttcaat aaatacttgg ccaagccatg 60 aacactgata gtctcacaca acaatacatt gggatatgac cttaatggct taaacggagc 120 aactataagg aaagcttgaa gaggccagag ctattggtca tgtagaaatt gtttaagatt 180 cgagagcttt ggtttgatct aagacaattt atctatgcaa caaaagtctt accttttgat 240 ccaatctcca catcaccttt cttctccaaa acgctagttc tacaatcttc ataaaacact 300 acacaagcca cccatttgat catattccca acacagatca aacccacata gaaactcgtg 360 tacaacactc tgtttccatt ggaactctcc gtgcatttga 400 199 466 DNA Arabidopsis thaliana misc_feature (1)...(466) n = A,T,C or G 199 cttgatatcg aattcgcggc cgcaagttta cacagaagaa gggtttaggg tacaacatgc 60 agaaacatta tctatatcac aaatacagta atatttaaat nnaaaaactt gtttttgttc 120 ttcaaagatg atttcatgtg cgtaattttg catagccaac gaaagagttt ggtagtatag 180 tttcctcatc agtcggtgta gggttgagag tccatgcaca aatgcactag ctttctctgg 240 tactgttgaa agtattcaca aaccgctgtc acttcttcct tccctgattc aagaccaggc 300 agatcgggca gcggtactgt gccatcacca gaagcagatt cagactcctc gtcttgggtt 360 gatagctcgg ttatgatttc tgaatgaatc tcctgacacg cgaggacaaa catggctact 420 gtatcaggct gttgcacctc tctgagagct gcaagcgcct cttgca 466 200 106 DNA Arabidopsis thaliana 200 gaattcccag cgaagagatt gatattttga agggaagata catcaaaaga ttgactgctg 60 tgcttgtgca tcatatccct gtgttttgga aaacagctat atctat 106 201 446 DNA Arabidopsis thaliana 201 cgcctaaaag cgtcaggtca tacaaagatc ccaagataat gaaacaaagc ttaaacggag 60 agtagaaaaa ccatgagata atagacgaaa tagtaaaact agtgacaact ggctggaagc 120 agaagctctc tctcttcact cctctctgta gtctgggttc tcctttaaga tgatgaatcc 180 ttctagtatt ggcgacagag gaatgtattt gtccgtggct agttcggctc tctctccagc 240 agccaggaga acaggtgtgg agtgtgtctg gaaaccggtt atggtcttgg gccgacccgc 300 ttgcccaacc acatcaactg cttgtcctac ccgcactggc actgacagtg gcttcaggtt 360 ttcatccact gtcaacatca tccttggttg catcgccaaa acgaggaagt acagcacata 420 atggtacttc ccgagtatga ttggtt 446 202 215 DNA Arabidopsis thaliana 202 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttt tttttttttt 60 aattacaatt cataaagcac tttcattatg gattaagagc aataataata gagttgtatc 120 aagagcaata tcaagagcat ctctctctct ctctctctct ctctctctct ctctctctct 180 ctctctcttt atctttctct ataccacgaa agtag 215 203 373 DNA Arabidopsis thaliana 203 ttcgcggccg cttcaggttt tgatctggat gttcttcttc aaagggccca ggcttgcaaa 60 gttcagagta gcatgtggtc caaaattggc cgactcaaac gctcttttat gcctaagctt 120 aaaggaaaca gtaattatgg gtcaggagct acaccagggc tcatgtcttg tattgctgga 180 aggctcttgt gtgatacaga tctgtgttct cgtgacttgt tgaaggaggt cagttattct 240 ttaacggacc tctcaaagac acagctgaac cgggacagga aagagatagc gcctaatgat 300 attcccaaaa tgtttcagtc atccaaaaca cttgtggaac ttattgaatg tggtgagacg 360 gatgcatggt tat 373 204 484 DNA Arabidopsis thaliana misc_feature (1)...(484) n = A,T,C or G 204 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttaaa accaagccaa 60 gaatttttgg tcttgtttct tgactcttga ttttttactt aaaaagtgga aactttatga 120 cacttaaatg tgtgtattgt tgtaacctat acatttttct ttttcttttc ttctcaagtc 180 tatactctaa aaaactataa cnangcttgt tttctctctt tttatagttt nnattccatt 240 taaggaaatg taccggtcaa gcgaatatgg tcgagggttc gcctcagacc atgcttaaga 300 actgcttggt taccttgcct gaacccatcc ccatatgccg atgaagaatc cgactcgatt 360 tgatgcttgn nnaactcacc aagtttcttc tcaaaatcag acctctcacc tttcttggac 420 gatgctgaca ccacagcaga tgatgaagaa gatgcgatgt ctactaatgt agagccagca 480 taag 484 205 183 DNA Arabidopsis thaliana 205 cctctagagc ggccgccctt tttttttttt tttttttttt ttttttgaag aaactagtga 60 atagatcaag agaacaatgg gttagtatgt gaaggcaaag aagaagaggc ataatcatcc 120 aaaagactca aagactctca agtcacgtga cttgtataca tgatcaaacg caaaacgcaa 180 aac 183 206 268 DNA Arabidopsis thaliana misc_feature (1)...(268) n = A,T,C or G 206 tggagttggg cgacgaactg gtgctcaatc tggtcagccc ggagcaagcg gggcgcctga 60 tcactcggtg caagnnnatc gctgccgagt tggaaaccgg catgcctttc gtgtcggtgt 120 gggcaccagc tgccgtcgcc gagaatggac cgtcacaggt gtcgatcgat caacttcgac 180 gcgggctcgt accgtatctg gctgctccgg ggtactcgga catgttcgtc cgcgcgggct 240 acgctgatgt gatcgagtca gccagggc 268 207 475 DNA Arabidopsis thaliana 207 aagcttgata tcgaattcgc ggccgcctgg ttcaaaaatc actacacttg cacagaaaat 60 ttgtttgcaa gctaaaggaa tccgtatccc agtgagctac tctcgcttcg gaattttgcc 120 tatctctcag ctttacgagc aaacctggtc ggtctatctt agtatccata acctgagttg 180 tccattgggt taccagcagg aactggctct ggctctggga tctcaacaac cacacagtca 240 gacatcaaga acgtctttgc aactgaggcg gcatgttcta agcaacatct cacaaccttt 300 gtcgggtcga tgatgcctgc agccatcagg tcttcatact tgccggttgc agcattgtat 360 ccaaatttca cattatcgtt agccagcacc ttctcgctga caacacttcc attaacacca 420 gcattcttag ctatcaattt cagagggtaa ctcagtgctc ttttaacaat ttccg 475 208 196 DNA Arabidopsis thaliana misc_feature (1)...(196) n = A,T,C or G 208 aagagctatg acgtcgcatg cacgcgtacg taagcttgga tcctctagag cggccgccct 60 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt ttttttttga 120 gcctcagaaa atcaaatgta ntcgataaag tgagcctcag cacacattac agccaaattc 180 ccaccaagaa cgtaat 196 209 519 DNA Arabidopsis thaliana misc_feature (1)...(519) n = A,T,C or G 209 ggatcctcta gagcggccgc cctttttttt tttttttaag gaaagggtta ctttaacgcg 60 gaatgtaatt ttacaagatc aaacaaacaa acgagggtcc ttgagaaaga gaagaaatac 120 aatggcggac aaagggtttg gttcttatct ttttccttga agaagacaaa ccagagcttt 180 gttagataca acgcgggaaa aaggtctgac cgacatatcc nnnggtcatg gccctgcgaa 240 cattggtctc aaagagcttt gngttatccc tcaaaactgc tgcagcatca tggttcaagg 300 gatcttcaga attgggttcc gtgaacagat ggaagagtcc gtagataact gtgttaatgt 360 taagaacagg tttccaatct tcacgcaaga tgttcaggca aacgtttcct tccaaatcga 420 tattgggatg ataaacctaa acaagaaaac caacaaagag tttctacaac acaaacgatt 480 ttgaagtaga agctgtaaac tatataaggc atgtaaaag 519 210 468 DNA Arabidopsis thaliana misc_feature (1)...(468) n = A,T,C or G 210 gcttgatatc gaattcgcgg ccgcgcaaaa ccccaaaatc tgggtaaaca acaattcggt 60 tatggattct cgagattcgt tatcatccga cgccgttaga gnnncgtcgt cactctccga 120 cgacgcagct gttctctctg taacctctac actcgctaaa accgctcttt cctatttcca 180 atctggaaaa ttcgaagagt gtatcgacgt tttgattcag cttgatcaga tgaaacataa 240 cgatcccaag gttctacaca atatggcaat tgcagagtac ttcaaggatg gttgctcgaa 300 ttccgagaaa ttggtggaag tgctaaaacg tgtcaagaaa cagagtgaac aactttcttc 360 tgcagcaaaa gaccaagtgg aagctgcaaa ccctggaact aacgtctctg tgtcaaagga 420 tcattttgat aggacagtaa caactctcaa cattgcggtt acctggtt 468 211 501 DNA Arabidopsis thaliana misc_feature (1)...(501) n = A,T,C or G 211 ttttttttag tagatacgca aaatatataa aggaaaatca aaatgtctga agaacagaga 60 agcaaaacaa aactgagaaa atacgatttg aacccaaana aaacaaaaca gatgatagct 120 atttgtttga cacatttgtt taaccagtga tgttctgaga cttgttgaga atgactcctt 180 catatttcac ctggnnccat ttcatggcat catctttcgt cactctatgc tggattccaa 240 cacgagtctt gcatcttctg cggcgcgcaa cacggtaacc tggtcgctca agaacaacat 300 agaagtccat gccgtagatt ccagtcgatg gatcatactt gatacccaaa tcaatgtgct 360 cttgaatacc aaaaccaaag caaccagtgt cgctgaagtt ccttctcaag agttcgtatt 420 ctttaacttt caatccactc tcaaggagct gcattgcctt ctctcccctg acagtcacat 480 agcaagcaat cttctcatta c 501 212 267 DNA Arabidopsis thaliana misc_feature (1)...(267) n = A,T,C or G 212 tatcgaattc gcggccgcta agcctctcca atggaggtta cctccaccac cttcatctcc 60 actaccagat cttctaaata ccttacctta acttcgtact ctccggtgat tcttccggct 120 tctactctcc gccgtgattt tcttggttgt tgtcatagtc tccgtccttc tcctcatctt 180 cgaactcgcg ccgggaaacg caatnnncgt cgttcttcaa ttcgatcgcc tcgtttagtt 240 gttagagctt ctatcgattc tggtttg 267 213 451 DNA Arabidopsis thaliana 213 atcctctaga gcggccgccc tttttttttt ttttttatag aaatttcatg tccagaggat 60 ccactaaaaa tcttacaaag atcagcttcc tgcaacatct tgcaggtttt tgggaagaga 120 aacatcctga acgagaatat tactttcatt atctatcatg taagacacgt ctagtccctc 180 cagaaccaag tgataaacaa tttcctcatc caatgtatct tgtggcttgt tccgttgcga 240 cattgatcgt atgtcccatg acaggacctg cgtgatcaag ctcctaaact catctgctga 300 actatataga gacttctttt ctatcagttt ccagcagctg gtgatggatg aagagaaggt 360 atctgagaaa gtcacagaag ccacagccaa tgagcagtcc tcctttaccc agtttggcac 420 tgaggctcct tgaatactgt ccgagtatgg t 451 214 470 DNA Arabidopsis thaliana misc_feature (1)...(470) n = A,T,C or G 214 aagcttgata tcgaattcgc ggccgcattt atcaaatgtt tgaattcttc catctctcat 60 aattcttaag tggtcgtggt gtgtactatc tcctaagctc tctgttttnn ntttgtttgt 120 tcattggcta tatttcaggt cttcttcttc ttcttcaaga atgagctaat actcacagaa 180 gaagaagatt tttctttgga tttttcacta ctgaggcatt gttgtgaaat tggatggtag 240 tagcattgga atggcagaac aaaagagtag taacggagga ggaggaggag gagatgttgt 300 tatcaatgtt ccagttgagg aagcatcaag gcgttccaag gaaatggctt caccagagtc 360 tgagaaagga gttcccttta gtaaaagccc ttctcctgaa atctctaagc ttgttggtag 420 tcctaacaag cctcctagag ctccaaatca gaacaatgtg ggtctaactc 470 215 397 DNA Arabidopsis thaliana 215 tttttttttt tttttttttt gttttttttt gaatcatgat tcttaagatt tacagacagg 60 accggcattg aagtccacat atatttgtaa tacaaaatct attatataca cacacaaaaa 120 tctgggatat tctaatattt aacaacaact agcctccact atatttagaa gagcccactc 180 gaagcatcac cacgaccaca caaatctaag atcttttcct cttgtatttg tttttagcat 240 tactattttg atatatgcaa ggtttagacc ccaaaaaaaa agaagaaaaa atataattga 300 tattttcaaa atttgagctc catctcttct aagccatggg aaacacattc caagacgaag 360 ttaatcaata gttcatcctc tgctttttca tcaagtt 397 216 471 DNA Arabidopsis thaliana 216 cttgatatcg aattcgcggc cgctggctac cgttgctcct cctgctgatc aagctacaga 60 tctgttgcag aaactatcct tggactcgcc agcaaaagct tcagagatcc ctgagcctaa 120 caagaagact gccgtctacc agtatggagg cgttgatgtt catggtcaag ttccttctta 180 tgatcgatct ttgacaccaa tgcttcccag tgatgctgct gacccttcag tttgctatgt 240 tcctaatcct tacaatccct accagtatta caatgtatat gggagtggtc aagagtggac 300 tgactaccca gcttacacaa atcctgaggg tgttgacatg aattctggaa tttatggaga 360 gaatgggact gttgtgtatc ctcagggtta tgggtatgca gcgtatcctt actcgccagc 420 aactagccct gctccacagc ttggcgggga agggcagttg tacggtgctc a 471 217 474 DNA Arabidopsis thaliana 217 aagcttgata tcgaattcgc ggccgctatt tatccgtata gttgttcttg cattgttctt 60 gacttggagg gttaaacatc aaaacccaga cgctgtatgg ttatggggaa tgtctgtggt 120 ttgtgagcta tggtttgcct tgtcttggct tcttgatcag ctccctaagc tatgcccgat 180 taatcgtgcc accgatcttc aagtcttgaa ggaaaagttt gaaacaccga cagccagcaa 240 cccgaccggc aaatccgacc ttcctggatt cgatgtcttt gtctctactg cggatccgga 300 gaaagaacct cctctggtca ctgctaatac cattttatct attcttgctg cggaatatcc 360 tgttgagaag ctttcttgct atgtatctga tgatggaggg gcgcttctta cgtttgaagc 420 aatggctgaa gctgctagct ttgccaacat ttgggttcct ttttgtcgta aaca 474 218 455 DNA Arabidopsis thaliana 218 atcctctaga gcggccgccc tttttttttt ttttttttag acacaaaaac aaactttgat 60 gcaacaaaga ttcgacatga atacaaatca cgagattaat aaaacacaaa ctatatcact 120 tcttataatg tctttttagt ttaagagttg atctgatact tctcctcccc actctcttat 180 cctaccctca gccattgcag cctctgtgtc ccaatttgtt ctacagatca tccatgttaa 240 gactattgtc tgaaccacgg ttcctgtcaa cattccgcac cagattccca ttacaccaaa 300 gttaagcttg tagcctagta acagaccaaa tgggattcca aacacgtaat aacatactat 360 gttaacgtat gccacaactg cttgccatcc agctcccaca gccacccctg ataagacagg 420 ttggacattg ttgatgacaa tagagactgc gagta 455 219 454 DNA Arabidopsis thaliana 219 atcctctaga gcggccgccc tttttttttt ttttttttag acgtttataa aatattttat 60 tcttagcttc cttgttacca agtacaggta caatagcaat aagagcacca ttagtcctta 120 gaatggctac agtgagaata tcaggaaaag agtaaatctg tggaacacag ccacaggagt 180 ccaacaagta aaaaataaaa caagcctttt tcagctagtt cagatttgtt tagaccaatt 240 ctgaacactc ccaaccctag gcatcgcttc tttcttggcc tcagaatcca ctttaaacgt 300 tacaccgcaa acctcacccg aactgtctac ccttggtacc ggctttaact catttgatgg 360 atgctcatag ctcctcaaac ctccagatga ggtaaagaaa catcctttag ggaatggcgc 420 aaaggattta ccacaaccct tcttgacagt ctca 454 220 181 DNA Arabidopsis thaliana 220 ggccgccctt tttttttttt tttaacaata ggaaagtaaa aaaaagcgaa aagcgtccat 60 tgtctaatgg ataggacata ggtcttctaa acctttggta taggttcaaa tcctattgga 120 cgcaatataa atatatctat attgatattt atctattatt tccatttcta tatattatat 180 a 181 221 232 DNA Arabidopsis thaliana misc_feature (1)...(232) n = A,T,C or G 221 gaatcaccga ccaagtgaga cggaattgtc cgattgggcg cgacgaactg ttccagccac 60 gaccccgaca tttctccgac aaatcgtgga atagcgaact ggcgagtact aaaattaacg 120 aaaacttagt aactccctgt aacaccggtt cgcttgncgc tttgcgccac ccaccgggtc 180 gtccgagacc ccgacatgta tcttcctgct ctccccccct cctcctgcgg cg 232 222 336 DNA Arabidopsis thaliana misc_feature (1)...(336) n = A,T,C or G 222 tttttgaaga aaattcttat cataatgatt ttcttgtgac aaacacacgt aaacagaaaa 60 tccacattga ttagaaaaaa ataaagccaa agcattcgtg tttgaaccat ttgaaaaaga 120 caacaacaaa acattcgttg gacaaacaag cccgttacaa tttttcgttc atgtatcaat 180 gtgccctgcc ctctttagtt tgtagttgtt gcagcctcct ccaccagatt acttcctgca 240 acatcaacca caaatctgta acgaacatcg ttcttgcgan nntctcaaac gcaatgttaa 300 gctcatcgat cttcacagtt tcaatcgtcg acgtaa 336 223 451 DNA Arabidopsis thaliana 223 cctctagagc ggccgccctt tttttttttt tttttttttt taagctcgta aaaaactcac 60 taatcttgat ggatgtctta agattatcaa atcacatata ctctgagaat atgacaaact 120 acataatttc caatcgtaag aaaaaccgta attaaaattt tcttaatctc cttgttagat 180 acagaattta ctaaccaata tattctccta atcaaacatg ctctcttgat tttgtgagag 240 tgtgtgtgta gctctctcct acaaacctga ctctgatatc gatcagtgat tgcaatggca 300 acactagctt tgagaaagta agcgatcaag ctcatcaaac ccatcatctt catcatgttc 360 cacatttgtc aactgttttg gtgtcgtagt aaaaccatca agcttggttt gttcataaaa 420 gtaaagtctt tgtgaatccc attcctcttt c 451 224 455 DNA Arabidopsis thaliana 224 cctctagagc ggccgccctt tttttttttt tttttcacat agcttttcgt ctccttgata 60 gctggaagtt ctccaaaagt atgaaaagca ggaggacttt gtaccatcca ttccagtgta 120 gttgaattca gttcaagagc ccaaggactc ggagcacatc ttttgttatt tccactgctt 180 aaagtgattg ttacgaccac gaagaaacaa caaatcccaa ctacggatat ataagagcca 240 aaactggaaa gggcattcca tccagcgtaa gcatccggat aatctggaat acgacgtggc 300 atacctgaaa gccctaagaa atgcatagga aagaaggtca aattaacccc gaaaaaagtg 360 atccaaaaat ggatttgacc taaagtttca gggtatgtcc gaccaaagat tttacccacc 420 caatagtaaa atcctgcaaa taaagcaaaa acggc 455 225 472 DNA Arabidopsis thaliana misc_feature (1)...(472) n = A,T,C or G 225 aagcttgata tcgaattcgc ggccgctttt aactttaaat acacgtaaga tcaataggtt 60 tagattcttt cttatccttt actaaaaaga tattaaaaca aggtaacaac aacaacaaca 120 acaaagaaga agaagcgann nnnntacact tttgagttta aagacttttt aatcagcact 180 tgtatttttg ttcctttgca tcaatcatat cgctcaaact tggctgctca tgttccaaat 240 tcctgtttga agaatcatct catcaccacc cttagttgga gaagagagag tgaggaagaa 300 ctttgtaagg gttgagaatt ccctttgggt ccagcaactt tttaatggaa gccattaatg 360 caacagtttc gggtgatttg ctgtagaaga tttcattagc tttcattaca cctaatccat 420 gttccgcact gatgcttcca cggtgctttg atgtccactc atagacataa gg 472 226 457 DNA Arabidopsis thaliana 226 ggccgcctcg agtctctcga cggtcgcata tcaaaagtcc atttctttct tctctttgga 60 ggatcagcaa ctatggatga agagtacgaa gtcatagttc tgggtactgg tctcaaggag 120 tgcatcctta gtggtcttct ctccgtcgat ggtcttaagg tacttcacat ggacaggaat 180 gactactacg gtggagagtc aacttctctt aatctcaatc agctgtggaa gaagttcagg 240 ggagaagaga aggctcctgc tcatttaggt tctagcagag actacaatgt tgacatgatg 300 ccaaagttta tgatggctaa cggaaagctt gttcgtgtcc ttattcatac ggatgtgacc 360 aagtacttgt cttttaaagc tgttgatgga agctatgttt ttgtccaagg caaggtccaa 420 aaagtgccag caactcccat ggaggccctc aaatctc 457 227 452 DNA Arabidopsis thaliana 227 ggatcctcta gagcggccgc cctttttttt tttttttaat caactacaag ctgattgaaa 60 acaaaacaaa tccctcagaa tattccgctc agtatgtaca aatatgacaa agtgtttctt 120 tagtgtgaga gactggtttt ggacctaagc atcatagtct agctttgtat actcgagcag 180 catgtgcggg gatctataga tcttcacaag cgtccagtat agaacttctt ctactccaag 240 ctcaccctct gctctagccg cgtacaagtc ctcgcatatg gctattaatc tgtcacacga 300 aggcaggttc tcgtaaggta ttctcatacg caggtcagag cattgaagcc tgatgaaacg 360 ccccaccgct agtacaaatg tgatatagag tccccatata ctgaacttgc tgagggtgtc 420 acccagaaag ccctgtggcg gtgtttcctc ag 452 228 457 DNA Arabidopsis thaliana 228 atcctctaga gcggccgccc tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttgcc aagtgtgctc tgtttattgt aaaacttttg aggttattga gcaacaataa 120 ggcaaagacg aagactaaaa ctcctaaaag aatcgtatct ctcttctcaa gttaagatgg 180 tgattggtga aaacaaaaga cagaatttag tggatctagt agtccatgcc tcccattcca 240 cccatgcctg ctcctgctgc tcctgactcg ctttcgtctt tcggaagatc aaccactaca 300 gcttccgttg tcgtcaacaa agatgacaca ctcgcagcat caaccaaagc tgtcctgatc 360 actttcagag ggtctatgat tccagctttc accatatcca catattcacc tttagcagca 420 tcataaccga ggtctgggtt atcttgctcc aagagct 457 229 410 DNA Arabidopsis thaliana 229 aactatggca ttgattttca caatttttga acaactgaag atcatgagag taacaaagct 60 ctaaagtaca aacaaaaaac ccagagatgg agcaaagtga atgcaataca gatgaagaag 120 ccgtaaagcg atgagctaaa cgacgacgat tattaatcaa tatagttgta aaatcagcta 180 aaaatgaaga gaagttagaa aacaactcca agctaagtat gatactactg gcttctccct 240 tgttttttca cttgccttct caacaaagct ccaaagattc ttctcaggga ctttctgttt 300 ctcttttgca tgattaacta atatgatgaa ataacaacat atccataacc ttcaacttct 360 aagttttttt gtttcctttt ttaaaaaata aaatccattc tagagattat 410 230 467 DNA Arabidopsis thaliana misc_feature (1)...(467) n = A,T,C or G 230 cgcgtacgta agcttggatc ctctagagcg gccgcccttt tttttttttt tttttttaga 60 ccaaacaaat tagtannnnn attaacatta acaacaacaa aaatccaaaa aaagaaaaga 120 aaagacatca ccaactgtag atagtctcaa tccaacaata aagactaagc aatacaattt 180 ttttttttac ctgcttacat cttctaagtc ccttttactg gcatttctta taaactggaa 240 acttcacctt cttctttcat aattttctcc taactcgctt taccttttca taatttggtt 300 atttaacttc aaggtctagc tctcttgtta ctgcaagttg ggcatttgta atgcttgatg 360 tgttctgctt ttgcaggtgt tatcttcaca cattttccat ggaaccattt ctcacacgcg 420 tcgcagcaaa tccagaactc atctgtaccg tagttgtctc cacaagc 467 231 453 DNA Arabidopsis thaliana misc_feature (1)...(453) n = A,T,C or G 231 atcctctaga gcggccgccc tttttttttt tttttttttt tagtaataaa aaaaaactat 60 gtgctttttt tttatatatg cctccaaaat cccaatcgga gaacataaaa ccccccaaag 120 ggtttctgtg ttctgtctga aatgaaataa aataaagaaa acccgaaatg ggtttagtct 180 tttgtcttgt tggtcttatg gatgattann ncaaaaaaaa agaatgatga tgatgatgat 240 gaaatgcaaa actggagatg gcagagattg gtctctctta agacatgaac tgactaatga 300 gagtcgacca gactcacctc tacaagcctc tctacttttg aggaatataa agaggcttat 360 gaaaaaatgc agccaattga gagcgccaac gattggtttt tcaaggactg agccgtggat 420 aaaatcagga agcaaccgtt gcagaagatt gct 453 232 458 DNA Arabidopsis thaliana misc_feature (1)...(458) n = A,T,C or G 232 aagcttgata tcgaattcgc ggccgcaaac caatcaatgg aaactttcaa gtgggctaac 60 aaacacacaa cagaaataca actctcactc agttaagaca caactctcgt agttgggatt 120 gtaactaaat tattatgagt tccgtttcag agcaaccaaa agaagatatt cagatcagaa 180 ctggaattgc atctccggag agtatcccag agcttcaagg tttgcagcca tggccttgtt 240 cattggcggt ggtccgcatc ttaggatctg aatatcagat gcaggtgcag ggcaatgagt 300 ctgaatcatt tcctttgata caaatccaac accaccatcc catacttccg gangctggtt 360 caaaacatag aagattttaa attgttcagg gtaattggta gtaagannct ccaattcttc 420 cttcaagaga atgtcgtcgt atgtgacgtt ggcgtaaa 458 233 598 DNA Arabidopsis thaliana 233 tttttttttg gaatattgaa acttttatga gcgctagata tatatacctt aaatataaag 60 ttttacagaa atatgtatgg atccaacttc caagacaaaa aatctcacaa tgaaaaaacc 120 aaaaaaacaa tatcgacgaa attatcaaag taactaacgt taaatcaaaa tcaaattaga 180 taggatcgat aagatattat atatgtaaac atttgaatta ttctaatgaa actgatcata 240 acgtgttata tagattcacg taacgctaat aggtctaata ttcgattcag gagattgaat 300 ggacgcaagc ttcagctcaa gatcgagtcc accggagtta cccgagccgg atactgatac 360 tttcggatct ggatatccaa gacgaggatt gagtaatcct tgtttccaaa caacctttga 420 gctcgaccca atatgatcat tacatatcct cttagtagta ctattttctt caacattgcc 480 ggccgaaacc atatcaaaga ggctggtgcg gcgtctcttg tgatggagag tggtagtttg 540 ccggagaaag tatttttgag catgacttgc cacttgtgtc ggggattttg tgacgacg 598 234 459 DNA Arabidopsis thaliana 234 aagcttgata tcgaattcgc ggccgctata aacattgagg ctatatgaaa cactactttc 60 cactatcagt cacccccaaa agaaaaccaa aatagagaac gagattcata ttatacacac 120 aataaaacca tataatatac atatgattaa caaatacttg gaatgaataa tttggattgt 180 tctgacaaat ccatcaaagc ctcctccact aactcctcca gcaacttcaa ttctaattcc 240 tctcccatgg aatccatttc caatctcaaa ctctcctgtg aaccaatctc agctacttca 300 atcctcacca ctttattcac cgccaaactg ctcaagtctc cgtcttcatc ccaccaccga 360 tcttccactc ttccgttacc cgttaaacac tcttgcattc tgtttatcac ataaaccccc 420 aatggcttac cagagaggat catgggacta ctacgaggt 459 235 457 DNA Arabidopsis thaliana 235 ggatcctcta gagcggccgc cctttttttt ttttttttaa cagagatttt ttttagtatt 60 tggcctattg gtaaaacatt atcagcaaaa ttttagggca agctagagta aaatgaccct 120 ttttaaatga tatcttcaac tattctttct ttctgcacaa catccgattc tcttaggctt 180 ctgtttctcc agctttggac aaaatgtgat tccgcaaata agtggtacag caaagaagag 240 tatataattc aagaccgtaa actccatcca cgtgcagcca attcacgccg tattctcgta 300 gctgcctctg ctgtgtcatt caatggcgga taactccaac tttccgacat atcttcgaaa 360 cctgtaaatg agcggacaac tcctcgctcc ctcaaagact tttggaattc tgcaatcttc 420 catttacagt gatcggctcc aacaacgtac actggtt 457 236 456 DNA Arabidopsis thaliana 236 ggatcctcta gagcggccgc cctttttttt tttttttttt tttttagcgt ttgaagacgc 60 tggtcaacgc gttttataca ttaaaatttc caaaattcat caacgtgttg aagcaagctt 120 acacaactca gaagagcttt gttagtaaaa aaaaggtgat tcaagattcg tattcacagg 180 gaccgatcat cacaagagtg accattgacc aataactttg gttgaagttg agagtctacg 240 catgaaaacc gagctggact tagacgctca tggaactcgt tgtgatcgtt gttatggctg 300 ctagatatgt tacactgctt cttccttctc tgtacctcat ccttgacttt ctgaagcatc 360 atcaaatcga actttggctg accaatatgc tctacagtga tggaaccaaa gaggttccct 420 aacaatgcag catcaggaac agtcaaacct tcaaca 456 237 452 DNA Arabidopsis thaliana 237 cctctagagc ggccgccctt tttttttttt tttagttaaa tggtttggga tttaagaaag 60 ttttcttctt ataacagagt tggtaaattt aaaatacaac ggaatataat cgaaacaatc 120 agtgaaacta tagagatata ttgatcactt ttcaattttt catgacccaa aacctctcaa 180 tttctccagc ggttcttcct gggatcctcc cagctatcag ttcccacctt tcatcaaata 240 ataacacaca aaattcagct tttactatgg tgttacaatt aaattatttt cctacgaaat 300 agtattcatt attagttaaa agatcaaacc tgtcaccgac aagcttatgc attcgagaga 360 ccaaatcttc ttcttcttga ctcatgttca caacttccca ctcaagacta ctcacttctg 420 ttccttgtca tcaccaaaat tcagatttct ca 452 238 413 DNA Arabidopsis thaliana misc_feature (1)...(413) n = A,T,C or G 238 cgtcgcatgc acgcgtacgt aagcttggat cctctagagc ggccgccctt ttnnnnnttt 60 tttttttttt tttttaaaag ttaaacttct tttttaatga aaattaatcg cacttgtatc 120 atcatgtaca atgctaaaag taatgattga ggatcttaac aaaagaaatt gaattttcta 180 acaaatctag acaattgaag caagtgggtt tagtggagcc ctagactcaa ccaatggggt 240 tgtcttgtgt ctagaatcat cttaactaca tcttctacaa atgaatcaaa acaagaatag 300 caacaccctt tcatcaggct actaccacta ctgctactgc tgctgctgcc aggtgtcata 360 tgatggtgag tacacgtcac tggtggcgga acaagatgga cttcactgct ctc 413 239 449 DNA Arabidopsis thaliana 239 cctctagagc ggccgccctt tttttttttt tttttttttt tcagcccaaa gaacactttt 60 taattactag taaagtttaa ctaacggtta ataaacttac atcagacaat attacacttt 120 ttatcttggc tgcttcaatg tctccgcatc gttcgtttta ccggtgaaag aagcttctta 180 gctttcctct ttcaagcttc tcgagaagct tatcggcgcc cattacttcc atctccgaca 240 gcttcttcag ataccctatt gctccgtacg acaccatcat tttcttactc ttctcgcttc 300 ccgacatccc caacagcccc gccacggcgt acttcttcgc cgtgtttcca gggtttgaat 360 ccaataacat caccaaattc gtcagaacgc tcttcccgtc tttcttcagt tcccgtcgaa 420 tccttccttc cgctaccaat ccagcgatc 449 240 609 DNA Arabidopsis thaliana misc_feature (1)...(609) n = A,T,C or G 240 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttt aaataaaatt 60 gtttctattg tgtattcaag attctggtta tttttcttac acattaatag atacatccat 120 ttgaatatct ccatctcctc tgtatcannn nnnnatctct ggccacttta ttggctaaac 180 tctgtatata tacaatatga tgctgataag acccgatttg gcttttctgc tttctcattc 240 cttagaggga tcaatggttg tagtagaact cgaagaggtc tcaatgacag attccgagat 300 tctagcttct gatttctcgt tcgagtaagt cgaaagtata gtgacccaaa taagctccac 360 gcaatctacc cagagaagtc gttgttctac tgggaccaaa ccgtatgtga tcaaatgagc 420 aaatggccaa agcttccaac ctgctgttag cataggcaag aacgtagctt ttagttcttt 480 gaagatgctg ataggcgatt cgaaacgcag gaaaccaaga accgtgaagt aaatactgtt 540 ccatatagct gaccagactg tttgatcaaa ggcaactttc acaggaacca cccaccaatc 600 ttgaaacgg 609 241 453 DNA Arabidopsis thaliana 241 atcctctaga gcggccgccc tttttttttt tttttgtttc ggccggttag taattgtgcg 60 agctagagag aattaattac cgcatccata atggcaagat ttagcaagag aaccgcagag 120 caggaatgct tcttgaaagc agatacggtg acaaatgtag atacaatgct gtaaaagcat 180 gccacggata atgctaccac aaagtatcta cacattagca aacgaaaaaa gtggatttag 240 ttaattaaat actacataaa ttaaaagatt tatacgatat ttaaatcatc tgatacaaag 300 atgtttttta aaataggttg acaaaaaaga aagaaagaag ctgctttatc attatcactg 360 aacatttact ataattttga gtctttttcg ttaactaaag ttcgccaact tacttttgac 420 tttccacaac ctttgtttcg aaattccaac tac 453 242 124 DNA Arabidopsis thaliana 242 atcctctaga gcggccgccc tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt 120 tttt 124 243 452 DNA Arabidopsis thaliana 243 atcctctaga gcggccgccc tttttttttt ttttttatat gtaactcatt ttttttagca 60 caaaacaata ttttcacaac agcagatgtt acaaatggta caatgagggt acaacataca 120 ctaggctact actatatctc tttataagct tctacgagaa aaccccatta gccaccgatt 180 ataaactttt gctctctatc ttcctcttac cgtaaaagta agatcagttc tgtttttaag 240 tcttacttgg cgtcaaaccc gtccatagct agaacgtgaa gagtagtaac cagtggaaga 300 gacagcggaa atgtactgcc atgcaaaagc agcaatcacc agaaccataa attgcggcta 360 tccacggctt tcatggaagt gtatacaagt ggcattttcc caaattctgc cacaaaccgg 420 tttacgcagt gtgttctttt ttctgtgtgc cc 452 244 480 DNA Arabidopsis thaliana 244 agcttgatat cgaattcgcg gccgcaaaag actctctctc tcccatttac atctcttcat 60 cttcttctct ttctgcattt tgtgactaaa tttgttccga tctccgaaaa atatgaaatc 120 ttattagaaa aataccggaa aagaaacaga ttagtacatt cgattcagca ccttcaacgg 180 ttgcagaaca caaaataaga ggaattgctt gattatagct atggaagaag caacaaaagt 240 gagttcagac gtccctcaag ctaaggaagt gacaaaggaa gatactgtca tggagaaaga 300 agaggaggat acaatatttg atggtggatt tgtaaaagtt gagaaagaag ggatcaacaa 360 aaagtatgat gatgatgatg atgagaaagc agagaagcag ttgaagtctt tagaagatgc 420 tttgcagtta catgatgtta aacataagga actaactgaa gttaaggaag cttttgatgg 480 245 256 DNA Arabidopsis thaliana 245 atgaaacagg gcaccaaccc ctatgaccgc agatggaatc gaagacataa gatgcactcg 60 cagctgcccg ccatttcgtc ataagtactt ctccatcaag tcattttggc aagtccatct 120 tagacatcac gaggagcggc ttcggaatcg acctgcgact catcacttga ccgggaaaac 180 agagttactg aagaacagtc taacgttctt agcttcagta acaagtaaag aacaactcca 240 caaccaaatc ctaagg 256 246 167 DNA Arabidopsis thaliana 246 cctctagagc ggccgccctt tttttttttt tttggttttt aatttctttt atttatatag 60 aaacaaaata cacgaagcaa atgattcatt ttaaacagtg aaacaaataa actttaaaat 120 gcgtggaaat ccatagaaac gactactata acatatatat atatata 167 247 147 DNA Arabidopsis thaliana 247 tctagagcgg ccgccctttt tttttttttt tttttcagga cttaggtatc tttattgata 60 acatcttaca catgaccgct aaaccaaaaa gttttggtat ttctgcagca aaatcgacag 120 agatcaagga aaacgtttcc ttaattt 147 248 292 DNA Arabidopsis thaliana 248 agttttacaa ttattttgta agaacttata tataactcac ctctcatgtt ttcacttttt 60 ggtcattggc aaatcaataa taatggccaa tctaatccaa tttattggac ccgtttattc 120 taatacgaga aacatacaaa gttacacgac acttgatcat aattatgacc aaaagcgacg 180 aagcattact attacagtct ttaatgccag tttctggcat ttcaccggcc atgttcacac 240 atttggcaaa tggtggtcga ccttggattt acgtaagtgc aatattcaca ag 292 249 448 DNA Arabidopsis thaliana 249 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttt atcaaaactt 60 tttcttttat tcaattgtgt gcaatgtata tctattgtta caatttattc aaaactctta 120 aacctagaac gaacattctt ggttacaaaa caaatatata aagaagaaaa caaattttca 180 tacaaatcgg taactatata tttatgaaag aggaagaagg tgtggtgtgt gtgtagtagt 240 agaagatgtt gcgggagatt tgcaaccccg attgcttctc tctcccgacg ttgaagattg 300 cggcggttgt gtcgccacag gagcgtaaac tctattatta gttgtatcgt gtgaaggtac 360 ccaaatgcct tccatcacca taaactgccg ttgttgtgga ttttcaccac cggtccttac 420 taccggagta gctggtcttc ttgtatgc 448 250 417 DNA Arabidopsis thaliana misc_feature (1)...(417) n = A,T,C or G 250 atcctctaga gcggccgccc tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttgga gagaaagaaa aaagcttgca tatcattcaa gatggaattt caatgttttt 120 ggcctaaagc caaaatcaaa aatacaagta gtctgtgtgt aaactcttat tattagaaaa 180 gcaacaaaag ataactagag agtttcagcc ctctcttcaa aaactgataa ggctctcaat 240 tcttctactc cactacttca atcagggtgg gctcatagtc agagggagcc acaaatccat 300 ggaggttcat cactgttgca gctacatttg caagccccgg tgtttccnga tctttacgga 360 atctcactcc ttgagccaaa ccaggacctc caatagcaat tggcactggc ttgagtg 417 251 224 DNA Arabidopsis thaliana 251 tcgataagct tgatatcgaa ttcgcggccg ctatataaca gaagaaagac agtaagcagg 60 agaactttta gacaaactaa aaaacgtttt agctttttag cgtcaaatct cacaagtcac 120 ataacgcaat acaagactat ccaccaaaca aaaagaaaaa ctaacgacaa gacgctctat 180 ggaaatttcc cagctccagg atcaatttac cacaacaccc tttg 224 252 305 DNA Arabidopsis thaliana misc_feature (1)...(305) n = A,T,C or G 252 tcgacggtat cgataagctt gatatcgaat tcgcggccgc gtttcctcct ccatctaccg 60 gtgcgccgat tcctccgcca tatcctcagg ctaatcagga atggggcaat ccaaattggg 120 ggtatcaaca acaaggtcac acccctcaag ctaatagcaa cgtcgaggac tgggctgtga 180 aagccaaaga atgggcagct gcgaacnngg atcagcaatc acagcagtct gcaccgaacc 240 aacctagcgg acaagtctac cagcagcagt atcctactca tggctatcaa gattttcatc 300 aacag 305 253 183 DNA Arabidopsis thaliana 253 gtcgacggta tcgataagct tgatatcgaa ttcgcggccg cgcgaaagag aacaagtttc 60 tgacagtggc accttttgag tgtgcttgga gtgatgatct gaagttccgg gaagcgggaa 120 gaggttgtgt tgcgtttgat gcgtttgctc acaatgatgt cacggtggtg tttagagaga 180 atg 183 254 361 DNA Arabidopsis thaliana misc_feature (1)...(361) n = A,T,C or G 254 ttttttttag tataaacata ttttcatttc attttgttct tgtttaacta agctcacagc 60 aacagaattc cgaatattag ctagcaattg gagaaagaat annagacaga aacagagcac 120 caaattattc ttttagccca aaattttcca aaagtacaac aacaaatccg gcaaaaacac 180 atacagaaac caatttttga tttaccgacg aaaatttcaa atcagaaaac cggatttgat 240 ccaagtgggt ccctaaaccg acggtttaaa acaatttttt caacgatgag cttttttcaa 300 gtcaaactag cgaaacagct atcagaccta gacaaaacat tagaaacaca atcatgatga 360 t 361 255 421 DNA Arabidopsis thaliana misc_feature (1)...(421) n = A,T,C or G 255 gtcgacggta tcgataagct tgatatcgaa ttcgcggccg ctataaataa acgtacttca 60 cgttttttta tataacttca aagtagtttc agatttgtct ctatctcttc acttttaagt 120 cttctggttt tgtcatcacc agcttttttt gttctgtctc tgtctttctc tttgtgtatt 180 tttattctcg tcatcgttgt tcttctatga gaggaagatc ggaatgtcga agannnttag 240 aagattctcg tacatcactt cgttggaatt tcacaggtcn nngagagatc tgagaactgt 300 ttcattttga tccaaactca tctctttcag agtataatgg actaagcatt ttttttctcc 360 gaagatggtt aaagaaatag cttcttggtt attgatacta tcaatggtgg tgtttgtttc 420 t 421 256 452 DNA Arabidopsis thaliana 256 atcctctaga gcggccgccc tttttttttt tttttttttg agctaattta cttatttatc 60 tcaaacgacc catcaaggcc ataacttcct gatcctatga acaaccatca aaaacaagaa 120 atagccaagg ccaaacccac aaggacatca gaacgatgta ttaaaaaata caaaaccaga 180 gtccttcata agttgccatg tcttataact tgcgttgcta ctccatgtgg agccgttcaa 240 gacctcattc actggctttc agccgctctc caagtagccg agaagaccac gagtcagccg 300 cgctagcata ccttggacat gggttactca catttgagct attaaacatc aaaggctgct 360 gcgcttgagt catttctgag atatcttgtg tctggggatc aggttgtatt ggaaggacaa 420 gaactgttgc aggaggatga agagttgtag ca 452 257 172 DNA Arabidopsis thaliana 257 aagaaaatag attattggga gatattatac aatgcttagc aaagtcccaa aataaaggtg 60 tacaataaac aaacaactga gcaattaatc taagtctatg aatctatgat cgatcattac 120 ccttagaaga ggaaaaaaga agaagatttt aaatcctttt gggaggtttt ct 172 258 115 DNA Arabidopsis thaliana 258 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt tttta 115 259 411 DNA Arabidopsis thaliana 259 atcctctaga gcggccgccc tttttttttt tttttttttt ttgggagaag aaaggattta 60 ctatttcaaa ataaacatat tttctcatga attacatcat tacaagaaat ctcaacaaaa 120 gaggatgaaa atgttaaagc gaagatgagt tttcacttcc agagttcttc catggggatt 180 ccacgctctt gtgcaacatc gcggaactgt ctcatctgtt gtactgctgc aagagtggct 240 ctcgcattgt tgagagcatt gttgcttcca agctgtttcc ccaatgcatt ctcgactcct 300 gccatctcta gcacaatcct aaccgctcct ccagcaatca caccagtacc tggtgaagca 360 ggtctaagca tcaccttggc tgctccataa tcaccctctg atctgtgagg g 411 260 450 DNA Arabidopsis thaliana 260 cctctagagc ggccgccctt tttttttttt tttaaaaaaa aaggaaagag aatttatcaa 60 aaacataaac aaggtttcaa aaacaaatat cgaaacgaca atgagatcaa ctaaacaaaa 120 gacagaaata caaatgcctg aaacctcttc ataagttctg caaaacctaa agactttttt 180 ctctgtacag agaccaaact tcttctccac tgcttttacc tataagacac aaaaccagta 240 ttgtccattt gaaggaagaa tcctaactct ctgatgcaaa tagaaatagt ttgaatcgat 300 tctctctacc tttcttcccg cggtatctgc gtgatcttta tgccttcata tacagacttc 360 accatacagt ttctttgatt ttactgtttc aatcttcatc ctatcaactt aatactggct 420 cggttttctg gcttccgagc atagatcgtt 450 261 456 DNA Arabidopsis thaliana 261 ggatcctcta gagcggccgc cctttttttt tttttttttt ttttttttta tactgaaaca 60 gtcacctcaa tgtcaaatct tttacaaaca gaccacaaag aacatatcaa tgtcttgcca 120 aacgagatca cagtgagcac tgagcagaga acaaaagaaa aagaaaaaaa aaacagttgg 180 ttctctgtat ttacatcact agaaaccgat agttttgcct ttaggaaagt tatatccacg 240 tattagtact ccaatgatac tgagaaaacc atgaatcaag tgaagggata aaagtttgag 300 aagagcaaag taccaagaag gatataggct gcacaatatg accatatcaa gtacccccat 360 ttactatgtt ttggagatcc aatcaaagac gatgcaaacc agtaaagtgg agggcttgct 420 gacaagaacc ttgttgcaac ctggacatgc atgatg 456 262 387 DNA Arabidopsis thaliana 262 ggtcgacggt atcgataagc ttgatatcga attcgcggcc gcaaaagttg ctcctgctac 60 tcagcctaga gccttgagca ttatacaagg acgtgctgta ggagtaaccc attaccttct 120 gggtggaatt gccacaacat gggcgttctt cttagcaaga attattgcag taggataatg 180 gctaggagga tttgaaaggc attatggcat taagatttcc aaggtttagc caaggcttag 240 ctcaggaccc cactactcgt cgtatttggt ttggtattgc taccgcacat gacttcgaga 300 gtcatgatga tattactgaa gaacgtcttt atcagaatat ttttgcttct catttcgggc 360 aattagcaat aatttttctg tggactt 387 263 418 DNA Arabidopsis thaliana misc_feature (1)...(418) n = A,T,C or G 263 acgtcgcatg cacgcgtacg taagcttgga tcctctagag cggccgccct tttnnnnttt 60 ttttatctaa atttaagctg ctaaataatc atcaaaatgt aatttaaata caataatgtg 120 tttattcaac aattatacat acacaaatat atatcaaccc taaccagaat gtgatacttg 180 tttaccaagc catcaaatct accgtgcttt aggttcattg atctccgaaa atactcccca 240 actcgaacca ctcctctcat caccaacaac tagaacagag tcatcggtcg tggtcgattt 300 cccaacgtgt cctgtagtcc tactaaacaa gtcatcttct ccgtccgtgg tcgtaccaac 360 ttcaccactt ggcattagat ccagagactc cacgttgtca ttcttcttct tagcagtc 418 264 411 DNA Arabidopsis thaliana 264 gacggtatcg ataagcttga tatcgaattc gcggccgcgg cgattcgagg agtttccatg 60 gtggaacaga aaccctagag cctttatgct gccactaatt atcactcttc actattgaat 120 tggggatgga ctcagagaaa atcctcaatc caagacttgt ttcgattaat agcaccagcc 180 gcaaaggtat gtccgttgag ttgccgcaga aaccgccgcc accgccgtcg ttgttagacc 240 ggtttaaagc tttgcttaat cagcgtgaag atgagttcgg tggtggtgaa gaggttttgc 300 ctccgagtat ggatgagatt gttcagcttt atgaggttgt tttgggtgag cttactttca 360 attctaagcc tattatcact gatctcacta ttatcgctgg tgaacaacgg g 411 265 222 DNA Arabidopsis thaliana misc_feature (1)...(222) n = A,T,C or G 265 tttttttttt tttttagctt aaaacatctc actgattaca ttcataataa aattcaagta 60 gtaacgtaac atcacttccc taaaatgttc ctcgttagga cgcttatttc ctacaaactc 120 aaaatgcaaa gagaaagatt annagacatg ctccacatgt tccggggata tgtgtgcact 180 tgcttcgact tggaaccccg atttcaaaca aacaaacaaa at 222 266 170 DNA Arabidopsis thaliana 266 attccatgga cacttcaggg tctctcacag ctgttacatc ttcttccttc tttacctcag 60 cagttacttt ctccgtttct tcttccttct tcttcacctc tgttgctccg tctttctccg 120 gagctcctac tcgtttcttc atggggcttc ttcttgcaga actcggggca 170 267 150 DNA Arabidopsis thaliana 267 ataaacattt atcaaaagga aaatcaaaca gggggtggtg gcaaatcaat aagaagccaa 60 aagccaacac agtcatcaga atctaagtca tcttgaattg caagaaaatg caaacctcca 120 cttgttttct ttgcagattc ccaagcttca 150 268 474 DNA Arabidopsis thaliana 268 ttgttttttt ttttttaatc agaactaata tgttttcttt tcattatgat cacctgacaa 60 ttacatagca caaaaagtta aaaacagaag attattacga tacaaaatta tagtacctat 120 atagaagaaa taaaccaacc aaccaatcca cgcctctcaa aaaccggttc taaccggcca 180 atcttgccgg tttagattac cggactcgga agtttccgtg ctttcgtagt ataccatttt 240 tgtcatagct aacattctca ccctatattg ttttagttat ttacattttc ctccccattt 300 gttttactca catcacagaa cacccatttg gattctcatc actaaacaac tcaggcgcac 360 gcatgtgacc ataaggatct gcgtaacctt gttggttcat atatggtggt ggtggagctt 420 cttgtccata cccttgaccg taaccttggt tcatatacga ttcttgcacg tatc 474 269 395 DNA Arabidopsis thaliana 269 cgacggtatc gataagcttg atatcgaatt cgcggccgct agctttctct ctttctcttc 60 ttctagcttt aatcctctgt ttctcaccca cccaatccta caaaaccatc ggcaaaggct 120 accgtttggt ctccatcgaa gaatctcccg acggtggttt cattggttat ctccaagtca 180 aacaaaagaa caaaatctac ggctctgata tcaccactct tcgtctcttc gtcaagcacg 240 aaactgattc acgtcttcgt gttcacatca ctgacgcgaa acaacaacga tgggaagttc 300 catacaatct cctcccacga gaacaaccac cacaagtcgg aaaagtcatc ggaaaatcaa 360 gaaaatctcc aatcacagtt caagaaatct ccgga 395 270 239 DNA Arabidopsis thaliana 270 atcctctaga gcggccgccc tttttttgtt tttttagtat tttattgact agcgttcgtt 60 ctttttttct atagtggaga tagtcgcacg taatgacaga tcacagccat attattaaaa 120 gcttgtggta aaaaggggtt tcgttctaat gcccgaaaat aatattctaa agctttggta 180 tgttccccat tacttgtatg gataaggcct atattataga gtatataact tcgatcata 239 271 453 DNA Arabidopsis thaliana 271 cgacggtatc gataagcttg atatcgaatt cgcggccgcc ttcaaggccg acattatctg 60 ggattcagat gaaagtggag aagggtatgc gtgtggctgt ctgtggcaca gttggctctg 120 gaaaatcaag ttttatctct tgcatcctag gggaaatccc aaaaatctct ggcgaagtta 180 gaatatgtgg tactactggt tatgtgtctc aatcggcttg gattcagtct ggtaacattg 240 aagaaaacat tctatttggc agtccaatgg agaaaacaaa gtacaagaat gtgatacaag 300 catgttccct aaagaaagat atagagcttt tctcacatgg ggaccaaact attatcgggg 360 agagaggtat aaatctcagc ggaggtcaga aacagcgtgt acaacttgca agggcattat 420 atcaagatgc tgacatttat ttactagacg acc 453 272 448 DNA Arabidopsis thaliana misc_feature (1)...(448) n = A,T,C or G 272 ttttttttaa attgtatggt aataagatta cattaatatg gtcgtcattt acataatccc 60 tttagcaaca aactgacaag taaaggaaga tgcttaatgg ttgtcgacac agaattgtta 120 ttaagcaatc tcttaggtaa acaaaaanaa acagtgagtt catatgtagg ataagcttga 180 ccacaaactt gacaatatag atggttatga gattgtttag aaaagtaaag ttgcccatgc 240 agcaatgaac gcaaagcctc cgaatggtgc caatgtcgaa aactttctgt cctcccgcag 300 cgctaccata taacacgtgc cggaaaaggc tacaattcca gcagtcaaca agccaccaaa 360 aatgttggga tatttggtgc taggagcaga aacaagagca gcagtgtgaa ccaaatggta 420 aagtgaagcc gtttgccaca cctgtttg 448 273 181 DNA Arabidopsis thaliana 273 tttttttctc aactcatatg attagtaaac caagtacaat aagttttccc acgttgcaaa 60 acgcaatttg cattaggcac aacaatactt ctccgataat aactacatat ttacaaactt 120 aaccctacaa taataactaa atcaccaaac tacccttcat tcttctatct tactcaactt 180 c 181 274 174 DNA Arabidopsis thaliana 274 aaaaaaaata ttttttgctc atatggtttt gtgtcataga caattttctt ttatgacatg 60 aagatggaaa catacaatgt tctgtgtgat gaaagcccag cttaggtgga gaactagtac 120 atctttgaca taccgtaccg aacagctcca actttccggt gagcagaacc acca 174 275 126 DNA Arabidopsis thaliana 275 acgacttatg atgaatagat gaagaaacaa tacttgaaag agttttggaa tcctcaagca 60 tcatccatga gttctgtcca aattacaaac caaagttttc caaatcctcg aacatgttta 120 tgattt 126 276 182 DNA Arabidopsis thaliana 276 gatccggaac cggttcgtct tcttcgctca agcctccggg tcagacccgc cccgtcaagg 60 tcatcccgct tcagcatcct gacacctcca atgaagctcg tcctccttcg attcctttcg 120 acgatatctt ctccggatgg acggcgaaga tcaagcgcat gaggctcgtc gattggattg 180 at 182 277 234 DNA Arabidopsis thaliana 277 cctctagagc ggccgccctt tttttttttt ttttttaatt caaactcact cgtagaacaa 60 aaatatgaga ttacaatatc ccagcctaac gccagtacta aaccaaaaca cacataaaac 120 ccatcttttc aaatatcaca atcttgatga tcaatgcaaa gatgataaga aacaaacaag 180 caaaattgaa taataataac aaacactaaa tgagtaataa tagtcttgaa tcat 234 278 463 DNA Arabidopsis thaliana misc_feature (1)...(463) n = A,T,C or G 278 tttttttttc gtaaattttc agccacatcc ataaacttga ctcgaatgaa gattgacaac 60 gactgttttt caaacacttg ttttgaattt ccgtatattc agtctggaag taaaaacaca 120 gtaagaagac aaagagaagc agccattttt cttggttctt ttcttggttt aagcatcaga 180 tggtttctct gcggtttttc cttccttgtt aatgtgaaag ccttcaatct tacgagcaac 240 ctcatccaca ctctgcttcg gctttgactc gctgatctct tcaggattca ccggtccagt 300 ttgccaaatt ctgattgtac catcttcaga ccctgaagca taagactcac ctgttggtgc 360 aaatctcaca cagtgaaccg gaccatgatg tcnnttgttg catccaatct cctttccggt 420 gtggaaatca aagagtcgaa cccacatatc ttctccacca gca 463 279 199 DNA Arabidopsis thaliana misc_feature (1)...(199) n = A,T,C or G 279 tttttttctg agtaaaacaa aacctttaaa atatgaagag atctttacat gaaataaaac 60 aaccaaaggt attttactgc gttctccatg acgccaaaca atccaagaaa ttgtatanna 120 aaactttaga agatagaaaa cctcaaactg ttacttgtcg caaacaagtt gtactcttca 180 ccaactgtgt tctctttct 199 280 185 DNA Arabidopsis thaliana 280 ttttattagt ggtagcaaac gatcgacata aatatatttt tgataaccag atcgacatat 60 atattgatct agagacggtg gatcaacgtc ttagcaacag aggtgagttg gctatatgcc 120 aagatatcgt cataaacatc agatgaatct ttgaacttga gtttttggag attttcttcg 180 caagt 185 281 137 DNA Arabidopsis thaliana 281 acaacaacaa acaaaaacat ttccgttcac aaaccttcca ctgtctattc tcttgtcatc 60 aggttattgc gtaattgata tgcaagaaca gcaccagatg attgctcagt gagttctcaa 120 gaaaattcaa gttgaaa 137 282 236 DNA Arabidopsis thaliana 282 cctctagagc ggccgccctt tttttttttt tttgttaaaa agtgatgata ttacccctta 60 tgggtctcaa tcaaaaatct gtgttgggtt ttttctttca gaatgaaaca aaacaacaaa 120 aagagaatat taagtgaaca tgtcattgat attaactctt taagatgaag aactaagata 180 aaaaaaagat actaaacaaa ccaataagta aaaatgatca aagttacact cttgag 236 283 241 DNA Arabidopsis thaliana 283 ggatcctcta gagcggccgc cctttctttt tttttttgct cttagtctct atcttctctt 60 tcttctcctt ctcctcatgt ttcttctttt tctctcctcc agtagtagcc ttgatgatat 120 aagtatgcga aacctcacca ttctctctct cactcttcac ctccgtcgtc caattataac 180 tcttcttctt attcttattc ttcttcttct ccgcttcagc agcagcaata gctttagctt 240 t 241 284 201 DNA Arabidopsis thaliana misc_feature (1)...(201) n = A,T,C or G 284 tttttttttt tttttttttt acaaaaagct attgccattt ttaacacatt aatctataag 60 atttgagggt tataagcaag gcaataaact atacgagatt acatgttgag tggtngaaaa 120 atgttgagaa aatgagaaga agcttcattt tttttctata tcatgctcag aggaggtaga 180 actgagaata gagataatcc c 201 285 189 DNA Arabidopsis thaliana 285 gaagattaat tttcattgat gagtactagg tgaaatacaa ggagtcgacg atcaatacat 60 gatcccgaaa actaacccga aggataacaa gatatcctag gaaactaagt ccaagaaaat 120 ggggagcaaa taacaacact acaaaagaaa caagtcaaaa cactgacggc taagaaagca 180 aacatcaga 189 286 391 DNA Arabidopsis thaliana 286 tttttttttt ttttttgata tgcatcacag aaatatacca aaaaaattga gtacatatta 60 caaggagaaa caaacatgac tgaccaaatt tggcaactta taaactaaat gtttttctct 120 gcaaatacct attgctcatc ttccttatat tcctcaactt gtatggcatc ttattaccat 180 ttgtcggtaa gtccaatgtc tttcactcct tggtgcaatg tgcatctgtc ccatgctggc 240 tacacttact atatccaacg cttttaagaa aatcacgtat ctctttcgag ctactattgc 300 ttgccgtgag caatctctca tcttcctcat agattagata aggagcttct gctggtttcc 360 ttgaaagcaa cttcttcgca ccctttaaaa c 391 287 197 DNA Arabidopsis thaliana 287 atcctctaga gcggccgccc tttttttttt tttttttttt tttttttacc tttgcaatca 60 ctcctctcta attacacaga caagcctgca tttttacata tagtacacat acaagcataa 120 agcacgatct gttttcttaa atgtgtttca tcttacacga ggagattgag tgtaagaagg 180 taaaggcgat gcaccag 197 288 205 DNA Arabidopsis thaliana 288 tttttctaaa gaaagcattt ttaccaattg aagctcacaa aacaaaatga tctcatatct 60 gcatcaacaa ctgtttttca atattacaga gcaaaagtga aacaattgag caaaataaaa 120 gagatattga ccttagacaa gctcaatgta agccattgga gcattatcac ctctccttgg 180 aagagttctg atgatcctcg tgtat 205 289 100 DNA Arabidopsis thaliana 289 ttttttttac tcgaaatttt cttccttgta aagaagatcg aacatctaaa agaaatagaa 60 caacaaaaaa aattagatac ataattgcaa tttatataag 100 290 194 DNA Arabidopsis thaliana 290 tttttttttt atgaagacaa tgttttattg gatctcatgt gtttttatac cgaagttcca 60 atgatttaag gcagagatca taagacgaga aagagaagaa gaagtcttaa tctgtagaga 120 gatgatgtta ctcagatgat ccagctgcta tcatccttca ccattgtttc tttcgaccag 180 gtttgttgta catg 194 291 214 DNA Arabidopsis thaliana 291 ttttttgtct ttagcctgtt cattgtaata agactagaaa aaggattcaa tgtctttaac 60 tctaagaacc agacccttca aaagatttat taggacagag actcatatga acaatacggc 120 gaaatacatg ttcatatttg catttccatc aagatcaaaa tggtggtgat tcaggatttt 180 accgcacagg ctgttggtta tagtgattct tctc 214 292 148 DNA Arabidopsis thaliana 292 catttacttt tatttccacc ctcattaata caaagagaag ataacacttg ctatgcttat 60 acacatagat agataaaggc tactacactc aagccagccc cttaaggaat gggataaaca 120 acgaccttcc ctgtggcatg gttcgttt 148 293 409 DNA Arabidopsis thaliana misc_feature (1)...(409) n = A,T,C or G 293 ttattttgct ataattagaa gaatttgtca cttcacaaaa cacgagagtg tataggcttt 60 ttatttccaa tctaatttac aatgacatga ctctataaca acattaataa tacagtggcg 120 tatacaaagc acaaataatt tgatttacag tagaaagaaa ttagaaagtg aaagtggttc 180 attgccaaaa ggcccaaaac attcggatgt ttcttggaga tcccaaaaca gattcaagaa 240 attccanngn ttttaccaag aagccagaga acaagagaca attcaagtcc gaagattgta 300 tggagagtac ctctatcaag tgtaaaccca tacactgtga ttcctgcgct gttattctcg 360 aaataactca ctagagcttg ccgtttttgg aatgacatgg tactgaaag 409 294 308 DNA Arabidopsis thaliana 294 tgacaaaaag gctttaacaa ctgtataacc cttctgtctt ccacaagtgt ctgaaactcg 60 ccggaatcta aaagactccg gccaaataaa attacagcaa catctctctt gagttccacc 120 ttatttatga aaatcaaaat atgttacgaa aaataaatgt gaaatctata gaccacaaac 180 aaatataaca gatgagaaga ccagaggaga agtggcatca aaagcatctc tcatcatatt 240 tttaagcaag gttgatagtg aaggagacat aaggatgtgt ctctgagtca ccagctaaac 300 cagccatg 308 295 429 DNA Arabidopsis thaliana 295 ttggatcctc tagagcggcc gccctttttt tttttttttt agttttatta atttacttat 60 ttatttgtat gtgctacttt ttattagatc cacttttgct agcatgcctt tatatgctta 120 attcaatggt ttgatcatac gtatacttat tacagggatt aattactgta attgaagctc 180 acatcatgga ccatcatcag tatcatcatc atgatcaata ccaacatcag atgatgacta 240 gtactaacaa taattcctat aacaccatcg tcacaacaca accaccacca acaacaacaa 300 caatggattc aacaacagca acaactatga taatggatga cgagaagaag ttgatgacga 360 caatgagcac taggccgcaa gaaccaagaa actgtccaag atgcaactca agcaacacca 420 agttttgtt 429 296 439 DNA Arabidopsis thaliana 296 tctagagcgg ccgccctttt tttttttttt tttttttttt ttttttgaca aagaaagaac 60 aaaggtgtaa ccatttcaag acagaattat aggctctgtt gtttctgaaa gttacaatgg 120 tgattggtga cacttttaca tattttgttg tcaacagagg aaacataggg aatttgatct 180 cgtcgtgtca cgacggtctt ctagaccttt caagaaccat ctcaccgcga ggtgctctga 240 agcataagtc atgaaggcag ctagaattat ggctagaccc accattagac ccaacctcgt 300 gaataaagca gtgatcccca aaatgtaagg taaagaaact gcagcaatag ccagaaaagc 360 catccctaat ccataataca atgtagtaac gtcacaagac ccacctgctc gctgatgaac 420 ttttgcggaa tcatccaag 439 297 384 DNA Arabidopsis thaliana misc_feature (1)...(384) n = A,T,C or G 297 tcaaaaccag actacatgca cattattcat aatcgctctt tcaatacttt taatacaaat 60 tatgtacaat tgttcttaca gaatcacgat atgcagatag atacctgcac tttacgtagc 120 ttcagttctg acacgcttaa ctggagctcg aagagaagat agataattag catctgattt 180 ctcaatacca tcgaaaaggt aactgnnngg aggcatctct atatacttgc cacttcttgg 240 aacaacttta agttcctcgt tttcccacac aattcgtcct cctgctattg tcacttcaac 300 ttttcccttt cctcttctgc cctcgtagac gtttgtgtct gatcttgaat gatgagactt 360 tgagctaatc tcgtagcttg agtt 384 298 127 DNA Arabidopsis thaliana 298 tttttttttt tttttttttt tttttttttt tttttttttt tttttttggt tggtgttggt 60 tgtgtagtat catcctcttc ttgatcttga acgacgtttc cgtcaattcc tgctggaaaa 120 ccaaaca 127 299 393 DNA Arabidopsis thaliana 299 ttttttttac attcaaatac tcaacttcaa acaaaatttt gtagaatcca agtttacatc 60 atatataatt cactcacgca acaaacaaga agatacaaaa acaagatgca ttcccgctaa 120 taaacaaatt acacaactaa gtgataattt atttcatttt ggcgtttggt cttttggcta 180 actcatatgg aatcataaac cgatgtatca agaacccaaa cggccggcca atacacagat 240 ccgatccata actttccatc ttttgtctca taagcctcac taacatattt caccgtcttc 300 ccttcactgt cctcaagtat ctcaagaatc tctcctgtct ctccagagag tttcacgaca 360 attccatgag gttttcctcc gttcatgaaa tga 393 300 391 DNA Arabidopsis thaliana 300 ttttacatca ttcaaccgaa ttataacttt aaatcagcaa atacaacaca gaaatgaatt 60 acagaggtaa cgtaattaag taagtagctt tacgaattat gaatccaacg tcaaatgaga 120 agacattatt cccatcgaaa tattcttctt tttcaaagaa atatgaaaca ctctaacgaa 180 acaagcgggt tctctaacaa ttcctctgtg gtataaccgt aattctgatg ctgttgctga 240 tccaacccgt ttttagccgg atctagtcta acccgacccg gagactgatt attcttccta 300 gtctttgccc cacccacccg actactctga ttcgaatcca tcaccgatct attcgtcgcc 360 ggcgatcttg accttcttcc ggatctctca c 391 301 165 DNA Arabidopsis thaliana 301 tgctgaaagg cgtccacgtc tcagagaacc tctctcggat atgagtttag tgacgaggtc 60 ccaccctctg cccgagtcca gatctagtat gctcaagtct ggcctcgtcc gagtcctttc 120 ccgccaccta ttaagatcat attcaacaga cttgatctcc agatt 165 302 127 DNA Arabidopsis thaliana 302 agtataggag ctatcgatat actacagaga tccatcaaca tcaactttgt ctttacaagt 60 tctcctctta tttaaatcca cctaatgtag gtggctatat aataatggac taactaaact 120 ggtgcgg 127 303 218 DNA Arabidopsis thaliana 303 ccaccatagt aatcccgata ttccgacttc ccgtctgcaa atatattgtg tccgctcatt 60 tcccgctttt tggctgagct ttgcatcttc tctgaataac caggagggat tttatcagat 120 ttgaagatac cattgcttgt gagcccctga aactgagact tctggttatg tatcttcttt 180 gatgacttca caacatgttc ttcactaaac aatctgtt 218 304 315 DNA Arabidopsis thaliana misc_feature (1)...(315) n = A,T,C or G 304 atcgatggat gaagatggaa acttgcagat tagtaatagt aattacaatg gagaagaaga 60 aggagaagat ccagagaaca acactttgaa tcaaccactg cttaagagac atagaactct 120 ttcttcaact cctcttgctt tggtcggtgc caaggtttca cacatcgaga gtttagatta 180 tgaaataaac gagaatgatc tgttcaagca tgactggaga agcagatcan nngcacaagt 240 gtttcaatac atattcttaa aatggacatt agcttgtctt gttggtctct tcactggtct 300 tatcgctact ctcat 315 305 465 DNA Arabidopsis thaliana 305 cttttttttt ttgtttgtct caatcgcata ctatgattca aggcttaagg attcaagaag 60 ataaatgttc tctccaataa agattcgaaa aacaaaactc gaaaaatctg atcaaatgtt 120 gttgttacta taagatagtt taatcctctt cttcaatgat cttagtgccg aggccagaga 180 gtccttcagc agggatttca gcaacagtga caagagagaa gaactcttcc tttgcatctt 240 catcatcatt tctcttacga gcaactcgga ctctgattct cctcggagga cctctgatac 300 ctttgctcca aatctgcttg ttcaatttaa catccactct cacatccttt gtccccattt 360 ccttctcagc aaacttcctt atctccttga tcgcctttgg agccttcttc ttaaaggtac 420 agctatgaag gcgtctgtga aggttgatgg tgtactctct ggtca 465 306 470 DNA Arabidopsis thaliana 306 tttttttttt ttacaaacca gcactagtgt acttaattcc accattgtag ctgttattat 60 ttattggttc caataactac ataaaaatta cagaatatgt tttccagaga tacgattatt 120 aaataagatt acaacataat taaatccaaa tgcatggatc ttggtaaaat ataaagttta 180 aacaccactc ccacttgccc tggcagcatc tggaccacaa cgaatggaac acttgcgatc 240 gcatcgggac gtctttctcg ggtcacgttg gacgcaggcg gtggagcaac cgtcgtagca 300 gtctccgggg cctaattgag cctcggccac catattcaag ctggaacata aagccatcat 360 aatcagaaga gccgccacta tcgtcacttg cttcttcatc attctcttta tctctttaga 420 tcttctttcg gacgcgtggg tcgacccggg aattccggac cggtacctgc 470 307 312 DNA Arabidopsis thaliana misc_feature (1)...(312) n = A,T,C or G 307 tgtaaattgt caaatatgat tatctacatg tatgtttata ctacaagaga gacagagagg 60 gagcaagtac catgtgctta attacttgaa gtagctatag aagcttccaa aatgtttggn 120 nncttacttt gctgcttctt cctcttctgc ttcggtatca agctcgagac cttctgctgc 180 taatagctga gtgatgagct ttttcttatc ttcctctgct ttctttcgca tcagatctct 240 tttcttcaac actagcgtgt gtcgctttaa agtgctgttg aataactctc tcgatgcttt 300 cttctccttc tc 312 308 199 DNA Arabidopsis thaliana 308 ttttttcaga aaaatgaaga gatagtagat acacaaaaat acaaaagcaa atgtgacacc 60 tatgagaaag taaacctttc actagtttta ttaactttca agtccaaaat aatctttcat 120 aatcaagagt ttattagctt caacaaaaac attcaactca aagtacaggg gataaactat 180 gggtctcttt gtcatggag 199 309 261 DNA Arabidopsis thaliana misc_feature (1)...(261) n = A,T,C or G 309 gcaacctgac cattttcaac acctaatcca tacaaaacac cagaatattt gtgcaacgga 60 ccaacgaaga aattctcctt gagctttctg aaagtacaag acgtgagnnn actatccgaa 120 ccagcttggt gacagatccc aactctctcc acttccagca actccgcaag cttgttgaga 180 ccaccgtgaa ggctgttgca gaacttcatc aggtgtttaa tgtcgcggac gcgtgggtcg 240 acccgggaat tccggaccgg t 261 310 373 DNA Arabidopsis thaliana 310 cccttttttt tttttttttt tttttttttt tttttttttt ttttttttca ctaaataaga 60 taccatagaa tagatactat gatacgaagc aataaaaact agagtatgtc ttaatcatta 120 cacaacacaa attgcaatga gtcttgaagg accaatacct tcattgtact ttgaattatt 180 ttgcaccaaa acatatttta tgtagagata aatctgagca aagaatcccc agatgcatgc 240 agagagttat tgcagctcgg tttttcgcag acgagattat ccgagatgaa gaattttctt 300 gtcgggatca gagtaagaac ctccattacc agatccagaa ccagcagtca taatgctatg 360 agcaaagtaa ttg 373 311 406 DNA Arabidopsis thaliana 311 ttttttttaa gaagaacttg taagctatta attcatttac cttgttagaa tgctttcttc 60 cccccacaca aacaaaacaa taataaatcg gaaaagatct aaaaccccca caaaaaaaac 120 agagtaagaa actgaagcag atcatctctg aggctggtca gaggcagaag ctccaacgga 180 aggtgtagcc gtgacagcgc tggctgagcc attttcaggc ggtggagcta ctccccattt 240 accttctgac tcaagcggct cgaatatatg gacccctccg tctgacagac ccactgcaaa 300 catgttggat tcttgcggat gagccgctat caccagtgga tggacattcg agttgctgag 360 agaagctggc aaatatgcag agggattgac tctgcaacgc aatcga 406 312 166 DNA Arabidopsis thaliana 312 aagaagagcc aaacaatatg aatcaataac aaagcttgtc caggaacaga agcacttcct 60 gcattacctg tgtcacaagc tccttttttg actacgcgag cgccatggca aactgcgtcg 120 ggacaaccgc accagtacgt gactccatcg gttccacaaa ccggat 166 313 339 DNA Arabidopsis thaliana misc_feature (1)...(339) n = A,T,C or G 313 tttttttaaa aggattgttg tttctatcat ttattccaag gtacaaaatg tactttaata 60 aannngatag ttccatagtt gacttcagct aacaaaatgc ccataacttc aattcttcat 120 acatcaccta gtctttggtg aatactaaac tgaagtttaa gaagtagaca actagtgact 180 tctcctagga acagcaaggg ccttaagcgg atgcttcatg actacggtaa actcgagctt 240 ctccgtcaag tccacttcat gaccttggac ctccttccag tcaaactccc tcaccatatt 300 cgccacatag tactccagat gcagcatcgc tagcccaat 339 314 399 DNA Arabidopsis thaliana 314 cctctagagc ggccgccctt tttttttttt tttgcacaat ttgaatctga atatttatga 60 ctggtcttta acgtgagtgt gcttgcacaa tttaaatcta aatatttatg actggtcttt 120 acggtaaatg tattcagtag taaatactaa tttacgacaa tgaagccata tgaatctttc 180 tatgacaaca atattatttg attaaatggg cgacctagac tcgttgatct tcgttgttca 240 tccgagaaga caatgtagtt atgtctgctt ccgtttcttt gttcttaccc cacaagaaca 300 cgtagagacc tattattgtc cctactgatc caatcacact tccgaggtat aaaggagtgt 360 gtaagataag gaaatcgaat agagtagccg atatgagag 399 315 397 DNA Arabidopsis thaliana 315 tttttttttt ttttgttgga aagatgagga cctcatcatg aggtaaagca aataggaaac 60 gtgaaaaaca gaataataac caaccaaagg agcttaatta cagacaagac agatttgggg 120 ggatgttgtg taaaaaccaa gtagtagtga attggagcct agtcaaaaga aggaacacgt 180 gttctaagat tggaaaggat attgctaggc tggtcacgtc aatcaagttg agcagcagcc 240 gttcttctgt gccacaggct gtcctctgat ctgcacggtc ggtggtcttg cattattccc 300 agctggttgg ctagccattc tctctttgat ggatgcagac attgccatga aagcctgttc 360 tacgtttgta gcatcttttg cactagtctc cataaaa 397 316 159 DNA Arabidopsis thaliana 316 tctagagcgg ccgccctttt tttttttttt tttttttact caaaagtaaa gagttgcccg 60 taaaatcata actttataca ttagagtttt gaaaaaggac acgtaaatag agtaactaac 120 ttaataagag ccaaactgga atacagacaa ctttataaa 159 317 203 DNA Arabidopsis thaliana 317 agatctcatg atttgaacta ttccgacgtt tcggtgttgg aagcaactaa gtgacaaatg 60 gaatccgaag gagaaaccgc gggaaagccg atgaagaaca ttgttccgca gacttgccag 120 atctgtagtg acaatgttgg caagactgtt gatggagatc gttttgtggc ttgtgatatt 180 tgttcattcc cagtttgtcg gcc 203 318 394 DNA Arabidopsis thaliana misc_feature (1)...(394) n = A,T,C or G 318 cgacggtatc gataagcttg atatcgaatt cgcggccgca tcaaattaac ctaaacctac 60 aagagaannn nntagaggaa aaggttaaaa aagggcccta agtatatgcc acaaggatgg 120 aggagtagag acttctatac aaaacattat aaactgtttc tactctctcc caaaccaaaa 180 gatgggaaga agaagagact acttctctat gatgcaagtg ggtaatttac attatgatat 240 accttcttct ctttgtgttc atcaaaagag gcaaaaagac ctgcatgaat tttatcctat 300 ccaccaactt cttccctatt gatctccctc tggccttacc aaatctgcaa actccacaat 360 ctgtagagtt tgttatgtta tactctcagc caaa 394 319 232 DNA Arabidopsis thaliana misc_feature (1)...(232) n = A,T,C or G 319 aggcacaaaa tccaaatata actaaacaag tggaaagact ttatgaccaa cgaacatatt 60 aanacaagta gaaaaatcat caagagaaac ggaacggcgt ttcttctttn ttcttatgtc 120 atggttgatt tggttattat gggtttagag ggtcagcttc tgaggtcatc tccttttctg 180 ctgaccactc ttgtgatctt gacttgtgga tctcggctac attcatcaac ct 232 320 394 DNA Arabidopsis thaliana misc_feature (1)...(394) n = A,T,C or G 320 atcctctaga gcggccgccc tttttttttt ttttttttcc aagcaaacac atataaatgg 60 atcaaatcat caaaatgcaa acactttgtg gttacaagga tcacactctc ataaaataaa 120 taaatcatca tctannacat accaaaagaa tggagatttc ttgaagatca tctttaacaa 180 gatagcaact aagtggtaga aagctagaaa gaaaacacta cattgtggtg aaanaatatc 240 caaacgaaat tnncacaagc cctcctaagt agctactaaa gatcaagaag caaaacacta 300 atattgtcaa cagaagaaga ttagctacat tctctgatca aagattgggc tacgtcgtca 360 agaaagtcca aagcttctta ccaatggaga cttt 394 321 168 DNA Arabidopsis thaliana 321 gttttcattg accataaagc aaaatagagg tctagttatg aaattacaga tcaagatcat 60 agcctttaac aaatgttaaa gtactataaa aacacaaatc acatggaaac aaaaaaagat 120 ctagtaaact tattagttct tcaaaactat caaccatctc tatatata 168 322 298 DNA Arabidopsis thaliana 322 ttttttaaag gggggacgac ccctaataat cttgggctga cccttatatt ttcgataaac 60 ataaactgaa aatagtccgt agcccataca ccgcgtcata aatcctagca tagactgaac 120 acaacacttt aaaacttcaa cttattttcg ttttacatgt acacaaaaca caattgcatt 180 gcaatacatt tctaagatga tctcaagatc ttgaagctgc ggattgagct ctaacctcaa 240 gttcttgtag aaactcagct actttttcga tctccggtgc cacattcttc accgtttc 298 323 265 DNA Arabidopsis thaliana 323 gaaggaaggt cactagaaga tgtaggatgg tcacatacgg acaaacttaa gcatttacta 60 aagtctgtcg caagcacaat ctgtggactt aaaaagaggt gtttggcaag taaaaatctg 120 tttacgtctt ctgttcactt tctttcttgc tctccacgca tcttgttcta tatataagct 180 tacacagata ttaaccgaaa acgaaacaaa acttgagagg ttcttactaa agttgcatcg 240 tcatggcttt cgaaaaaaac aacga 265 324 327 DNA Arabidopsis thaliana 324 gctcgtcgac ccacgcgtcc ggatcgcgag cggccgccct tttttttttt tttttgataa 60 aagagtaaag atgatcaaat tttctttcac aagtttggaa ttaaatcaaa aaacctgaat 120 gaaaaataaa atgacatttg tacaatctac actcagtttt tattctatgt aacacaaact 180 gtagttctca atgctgctgc tgctgctatc tgtatatagt actgttatcg tcagagataa 240 ggtttcttat ctgcatcaga tgttcctcat tcgaaatgtt caatttgaga cggagatttg 300 taatccacgt ttcttgttcc catgtta 327 325 332 DNA Arabidopsis thaliana 325 ctctagagcg gccgcccttt tttttttttt tttttttttt tttttttttt ttatttttct 60 ccttctcctt cttcttcacc agctctcttc tccttctcct cgcggcaact tccgcaaccg 120 catctacagg gaatgttact agtgggttga gatatgacgg atgtgctcct ggagacaccg 180 ttggagaatg tataaccgca acggttgagg aggaggatga ggaaggagtt gaggcggtag 240 tccggcggat tctacaacaa agaaagtact taagctacaa aactttgcag aagcagccaa 300 cttgtgatgg tagaattgct ggtaattgca ta 332 326 534 DNA Arabidopsis thaliana misc_feature (1)...(534) n = A,T,C or G 326 cctctagagc ggccgccctt tttttttttt tttttttttc aaagcaaagt ccaacctatg 60 gctataataa tgagtaacaa tcctagtcgg attttgtaca ttatagaagc ctaataatta 120 nnngcctagg attaatatca ctctagtgat ttcttctctt taagcaactc tactactttc 180 ctcatggtcg gcctgttgat aggaaaagac gacgtacaga gcaatgcaac gtcaagaact 240 ttctctatct cttcatactc tctcgtcgaa agtttcatct ttggatcaac aagcttgcta 300 agatctcgat agtttccaag tgaatcttga ttcatggctc cgtcttctgc tgatggagaa 360 gggtaacaca aagctgcttc cattgcaaac ttaacaatgt ccttattctc cccaaaagac 420 gaatcgttcg gtctttttcc cgtaatcagt tcgagtaaaa ccaccccgaa gctatagaca 480 tcgctcttct cattcacttt tgacgtataa ccatattccg gagcaatgta gccg 534 327 425 DNA Arabidopsis thaliana 327 gtcgacggta tcgataagct tgatatcgaa ttcgcggccg ccccagatgg agtttggatc 60 ttttcttgtg tccttaggga catcttttgt tatcttcgtc attctcatgc ttctcttcac 120 ctggctttct cgcaaatctg gaaatgctcc catttattac ccgaatcgga tccttaaagg 180 gctggagcca tgggaaggca cctccttgac tcgaaaccct tttgcttgga tgcgtgaagc 240 tttgacttcc tctgaacaag atgtcgttaa cttatccggc gtcgatactg ctgtccactt 300 tgtcttcttg agcactgttc tggggatatt tgcttgttcc agtcttcttc tcctaccaac 360 tctactgcct ctagccgcta cagacaacaa cataaagaac acaaagaatg cgacagatac 420 cacaa 425 328 350 DNA Arabidopsis thaliana 328 tctagagcgg ccgccctttt tttttttttt ttcgtgtaaa ctactgtatt aggtccgtag 60 agacaagttc gaaacataca tcagaggtta cagttacaca gatacaggtt tgaaacatac 120 atctgatgtt ttatttattt gcataaccgc agtttctgac ttcgtgtgac tctttacatg 180 gaactcctaa tccctccacg acactcagag agccacaagt ccatatgatc tactatatgt 240 tgcctcactt tgttcactgc atcaggtgaa ctgcaattct tggaatcacc tccaatgacc 300 atgggagatt gagggcatcc acggagatca cttccatggc cacagttgtg 350 329 291 DNA Arabidopsis thaliana misc_feature (1)...(291) n = A,T,C or G 329 tttttttttt ttttcctggg tataagttta tttacatgga ccaatatcat ccaaagagta 60 gagagcttaa tattatttac ataggcacac attatatgaa aaannaaaaa aaaaaaaaac 120 aaaccgaaac ccaaaatggg tcaagattct gaaacatcaa acatcaaagg gtgaagtaat 180 agtaaccgag gaagggtttg atgtggattg accaagcaac aaatgattct tcatttcttt 240 gtaagacctc aactcttcca aagcatcagc tgttgtcttt gaggccagag c 291 330 303 DNA Arabidopsis thaliana 330 tagagcggcc gccctttttt tttttttttt tttttttttt tttttttttt ttttataaac 60 ttaatcatcg acttgttata ttagcacatt aaacataata tgatcatata atacaataat 120 ataggcaaat gtttgatagc ggaagcagca aacagaaaat acataggcaa atatttgaag 180 ttactgattc agatgagact atcatttact ctccgagaga ggggactggg gcggaatcgg 240 aggccggctg cacaatatcc gaggggggcg gggcgaagag tgaaagattg tcgattatgt 300 cag 303 331 281 DNA Arabidopsis thaliana 331 tttttttttt ttttttgcca aaacgtatta taaggtttta tatatgttac aagcagaata 60 atccagaaac agcagcaaca ttttgtaatc tctctatcta tacaaaagtt aaagttgcca 120 ctccagcaaa aggagtaaaa gaaggcacaa attctgcaaa gaagccaatc ttgtcataac 180 ttgctaggga tcacatcacg ggaaagcttg gtcggcttta caaacatgtc ttgggtctct 240 gcaatgaact tggcaaactg agatcctttc gtttgtttgt t 281 332 340 DNA Arabidopsis thaliana misc_feature (1)...(340) n = A,T,C or G 332 cctctagagc ggccgccctt tttttttttt tttaatacaa catcttacaa ttttattgga 60 aacaagatct gttaacagaa aaagaaaaaa agaacagctt cttcctacac agacaaagct 120 actttgaggt taaaagaaaa ggaaatgaaa catggatgtg gtttagaaga aactaaagag 180 tggcgccttt gaagatgagg aagttgagng tccccaaatg aaaatagatg aaagttcctt 240 tagaatgtgt gaagaaacac ccaaaattgg ttcccacgac acattgccat ccacttccat 300 atctctcatc gaactccttc ttgatgtgag cagcgatgga 340 333 431 DNA Arabidopsis thaliana misc_feature (1)...(431) n = A,T,C or G 333 tttttttttg agattaaata gttgtattga acaaaaacct tggatcatat gtttctctaa 60 actcaaaaca taaactgacc aaaacaaaaa taaacgaaaa tctcagattt cagtaaacat 120 gtctagttgg agaaacgatc taacagcgga caaataacat aaaaggtgat tgattatgga 180 gaacaagaac ccacaagata aagattctct cttcaggatc tcacttcttc ttggcatcac 240 cagcctttgt cttcttaaca ccacggattt tcttcgccct gttcttcctt tccttaattt 300 gtttccttga cttctcaatc ttagtgtcaa gtccattcct gataagtctg tatttgggtt 360 caaacttctt agcnnnctca acagtatcat agatcaaacc aaacccggat gatttaccac 420 ctccaaagtg g 431 334 267 DNA Arabidopsis thaliana misc_feature (1)...(267) n = A,T,C or G 334 tgacgtcgca tgcacgcgta cgtaagcttg gatcctctag agcggccgcc cttttttttt 60 ttttttgatt gaagtatagt ttactgaatt tctgttacat cttcattatt gtgttctttg 120 tagcagtagt tatttcaaaa ctgtaataag atctctagtc agattctcat gctcctatcg 180 gataacagag aaaannntaa gagtcactcc acaatgtttt cttcggaagt gtttttgtct 240 tctacagtgt ctccatcttc agaagcg 267 335 348 DNA Arabidopsis thaliana 335 ttttttttat acacactgta atcaatttta ttacctgagg ggaaaaactg ataaaaggaa 60 gaaaaagatg aatattttct tcagtaatgg tttccctttg tagtgaatta tagagattat 120 gaatctgtac agtaaagagg gagggctgga tactacaaac agacctgtga ccctatgttt 180 atgtatttgt tgatgctttt tactaaaatg aaccaatcaa tcatcagaga gccttttgat 240 caagacgctc gttccagttt aagcaacgga ttaagcttct aaaccaatca ccggtttgat 300 cagatttgtt gacagttggg agtggatgtt ggctcatgta tattctca 348 336 285 DNA Arabidopsis thaliana misc_feature (1)...(285) n = A,T,C or G 336 aataatttaa caaaaagaac aaaatcaaaa tcactttcac agtttaagca caacggaatt 60 tagaagtttc caactgactt tacacacaga gagagtcaat tattgtcaga catgtcacga 120 aatctcgcaa gnnntttctt atggagaaga gttctgtaag tgtcaccagg ctgaacctca 180 aactcagcat caactttctt ctgctgactc ccaagtcctg ctctcctatc aacgccttgc 240 gcttgcaccg gttctttcat tccgctcccg tctttcccca aaccc 285 337 325 DNA Arabidopsis thaliana 337 caagctgggg aaggatcata tggtggtata cccctccctt attacacaca caaacacaga 60 cccacacaca cacacacaca ttcacaaacg ttcatgatca ccaaatctgc cttaattagg 120 cagagtcaat cccgtaaaag aagagatcat caaaccggtc attggttgga gctttaccac 180 catgcatcac aagtcctttc ttaccatcaa tggtagcagt cgtggacgcg gtccatcctc 240 tgctactcgg agtctcttcc tctccaccaa acttatccag cctctcccat tgcaacgtct 300 ctgtgtccaa tgcaaaagtt ccatc 325 338 524 DNA Arabidopsis thaliana 338 tatatatctt agaaaacatt ataacaacaa tgatgagtcc aaatccatct ttatgatctt 60 acaactacaa aacaatcatc acacttcacc ccaacaaaat aattcttctg acttagaaaa 120 acaaaacaca aacaccaatc acaaaaataa acacagctaa gctctaactt acagttttga 180 gaagagttta agtcactttt aagctcgttg tgaccttctt tgtcctcttg ccacgaccat 240 tttcgacaaa acctcttcaa gatactcaca acggtctcta tggtgttcga tccatataca 300 taactgtctt atcgcttctc tcttctcttc tcctaatccc aacaatgtct ccttcaactt 360 ctccttctct ttctcctctt ctcttacttg accttcaagc ttcttctcca cctcttcctt 420 ctccttcgcc atctcgtctt tctccttctt catctctacc acacacttct tcgccgtcaa 480 gagcatcttc gtcgcttcaa ccactgtttt ctcgtagctt ttgt 524 339 252 DNA Arabidopsis thaliana 339 gtttggaagt tgtgtatcat gaagagaaga cggagcttgg tcggcaacaa gcaccaggga 60 tgtgtcctta ttgcggcgga aaagtatcgg cggtggatat agagacgaag tggttgttct 120 gtttcttacc actttgtttc aaggtcaaac gcaaatactc atgttcttcg tgcgagcgtc 180 atctcgtctt gtattattga agaaacacgt agagagatgc gaaattgaag taaagagaaa 240 aaccaaaaca ga 252 340 329 DNA Arabidopsis thaliana 340 tttttttttt ttttttttgc cgtaataaag agagttttat tacttttttt gcacgtattc 60 aaccgaaata catttagtag gaacttgcat acgagacccc aacatgaatt actatgtatc 120 gcgagaactt ataatcatga atgacatata ttcaacaact tacaaagatt attataatca 180 gcgaatgaaa acggatctaa ttgggtttta ggagtggacc attcaaccct aagaatgagg 240 ttatcataac catagccatt caatttgttg attgctcgct gtgcatcttc cctgctcaca 300 aaactgacaa aaccaaatcc tctgctcat 329 341 155 DNA Arabidopsis thaliana 341 cattttaaac ttgatcatca ctgaggcatt agtaattttt ctgtcccaaa gatcgaacat 60 ttacacttac ttacacatga gtaaaattgt acataggaag caaatcatac gatctcaata 120 catccatgac aaatcttgct taaacgagac agacg 155 342 188 DNA Arabidopsis thaliana 342 tttccaacgg tgattgatgt ttcacgtgga agaagaaagc agtggaggcg atgggtctga 60 gattgatgag gagtttggcg gagacgattc aacgacgtca ttgtcgcgat gggtgttcga 120 tgagaaagat gattatgagg ttaatgaaga ttacgacgat gatggatatg atgagcataa 180 tcacccgg 188 343 407 DNA Arabidopsis thaliana misc_feature (1)...(407) n = A,T,C or G 343 tttttttttt tttttctttt ttttttggat tcaattatat attgtaaaag ctaagaccgt 60 cttttgatga aacaacatct cttaaactnn nntctgcaaa aaacaacaat acaaaaaaca 120 aaacaaagcc attgaaccaa gctcaaactc tttttaacgc ttcttggaaa caccaacagt 180 ctttccacgg cgtccggtgg ttttggtgtg ctgtccacgt acacggagac cccagtagtg 240 cctcagacca cgatggtttc tgatcttctt gagacgctca agatcatctc tcaacttcat 300 gtcaagagca ttggaaacaa cttgggagta tttcccatcc ttgtaatcct tttgtctgtt 360 aagaaaccag tctgggatct tgaactggcg agggttagca acgattg 407 344 245 DNA Arabidopsis thaliana 344 agcggccgcc cttttttttt tttttttttc acttaaacat aagcgttcaa acatagcagg 60 aggacgctat ttgacattac agtttgttta cgtagaactt tattacaaca ttacgccagt 120 taaaagcaga gagaaagaga gactcaaaca tggtgagtct tgtccgaatc ctcgagactt 180 gttgggcgaa accaggcggt ctcctccagc actgctgtgt cctggtgtgc accctcggcg 240 gtggc 245 345 336 DNA Arabidopsis thaliana 345 tttttttccg ggaaacatgt aatcaataag gtgagaggca aacgaatgaa tctgcctata 60 aaatgactgt ttcttctaca atgtaataat agtaaaactc ttgagtacaa tagagtggag 120 acatggatga atatctgaat aagctttctc tcaaactttc tgcgtttttt atgtacatag 180 aatttgcaga aacgttggga agcattctct aatacatatg tttattggtt caagctacag 240 tgatctcgct ccctcctcct ctttccgcca tgaaactcac tcgtttcaaa cgggatttga 300 ctcctcttgt ggcggtggtg gtggcggtgg cggtgg 336 346 370 DNA Arabidopsis thaliana 346 tttttttttt tttttttttt taaaaaagta ctaataccaa gagatagctt tttcaacgac 60 cattacaatg gtacttcaca taatataaaa taaactaaaa acttccaaac aaataattta 120 acccaaagtc acaaaatagt tcataacatg aaatttggga cgaatgcata ataatgaaca 180 gtcaaacata gaataaagca ataatcagag ttgttcaatt caaaaaaaga aagaaagaaa 240 aagagagaaa agatatgaga atagtttcct cactttgcca tcataacttt gacaaactct 300 tcataattga tctgaccatc tccatcaaca tcagcttctt tgatcatctc atcaacttct 360 tcatcagtta 370 347 488 DNA Arabidopsis thaliana 347 ttttttttta tcaccgaaac ttattttctt actgaactga atataatgta tagtttacag 60 cctaaaattt cagagaaact tactatgttc cttatttgtg gagaatcaaa tgatgtctgg 120 ctattttttt tgtttttatt ttattttcag acatgatgag gaaaaacctg ctcgttcata 180 tattaacccg actctaatcc ctcagataat gggtccagtt cacgcctgct ttgggggaaa 240 aatcccggta tgccaggcgc tggcacactg attgtgttac tggtaagcat tgagacaatg 300 gttgacaact ttggacggtc ttctggattc tcttgaacac ataaaagagc aatatggatg 360 catctagtga cttcattact ctgatagttc cttcctatgg acgaatccag cagctttagt 420 tgcgagccgt ttctccaaag cctccaagca taggtaacca agttgccagc agtagtagtt 480 tcatcgtt 488 348 163 DNA Arabidopsis thaliana 348 acaaaggaac gcagaagaag agcgacgtgt taagtctcag aaccagcaat gcacaatgcc 60 ctttagttca agttgatgac atcgtaaatg aaactggcac gtttcagtta gcaaggacgc 120 ttttaaactg agctatcgat tcaatagcct tgtcaaactc act 163 349 174 DNA Arabidopsis thaliana 349 tttttttttt tttaagttga aacaaattca tcatcactga taattcaaat atacatggta 60 aagtttttga atgataaaat gtgtctgatt atgggaatgc agattaaatc aaaggaaagc 120 aaatttggat gtggagaaga agaagaacac cgcattagaa agacaatata taag 174 350 345 DNA Arabidopsis thaliana 350 tttttttttt tttttttttt ttttttttta agataacgag gatgttgact ttgaattaca 60 aaacctctta caaaagttat aaagacaaat catacaacta catatatttt agtacactct 120 tgacatgaca aatagtattt gaatacgatc acaatgccga atcaagccag ctgcaataac 180 tcttcacgtt taatgtcgaa caccttcacc aaagcatctt ccacgacctt atccggggtt 240 gatgcacctg atgtcacacc gattgttatt ggtccctttg ggagaaagtt ttccttctcg 300 accagttctc catagtggag cttataggct attttattcc caggt 345 351 301 DNA Arabidopsis thaliana 351 tctagagcgg ccgccctttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttg gtaacaacga gaggtcttac taaagaagtt atgaacatag caccaaaata 120 tacaaaagat ctttcaagac aaagaaagaa caactcaaaa gcttctaagg tttcacataa 180 accttaaaaa agctacttcg tttataatac taatctccat caacatgatg tttatatata 240 caacataact attcctctgt cttaatgagc aggatgagga accgcattgt gtgcacgatg 300 a 301 352 253 DNA Arabidopsis thaliana 352 tcaaaaagca atggaaaaat tcccaatttt tcaatgaaaa gataaagaag aactaaaatc 60 ccaaaacgtc tcaacaccac taatattttc gtcgactttg tgaaataatt tagtcgactt 120 cctccatctt gctaccttca gcatcagcat catcttcaag cggaggcatc tcagcatcag 180 cttcaacggc atcatcatcg tcaatgctca atcccagctt caacatcctg tggattctgc 240 ttccaaaagt gtt 253 353 307 DNA Arabidopsis thaliana 353 cctctagagc ggccgccctt tttttttttt tttggtgaaa agtttaaggg ttcttagttc 60 ttacagatcc aatacaacta aaacagaagg ccgaaatggt ttatcttcta cacaagaagg 120 gtttctggac acaatacacg tcctctatag caaaataaca attttaccaa tgacaacaaa 180 acaagtcaaa agcttttcca tgggatcttt cacaaaacgg agtttatctt ctctgtaggt 240 agtaatacag gtgaaggtaa ggttcactgg tttgcctctt tgaccaaaac cacattatat 300 acacaag 307 354 448 DNA Arabidopsis thaliana misc_feature (1)...(448) n = A,T,C or G 354 cctctagagc ggccgccctt tttttttttt tttaaaacta agcttcaaaa ttgtatttga 60 ataataacaa tacatagata ctgaggataa aatgttttta gtcacagttt ggtggtttct 120 tacacttata tacggcagaa gcaggttgct tatacactgg aatgctgttt gcatccaaca 180 atcttacttc tcctggtcca aaatacaact ccgagtgcct tcgaaggtcg agtnnnngga 240 taccagcttg taacaccgat aagttgtctg aatcaggcga aacaatcacg attgtgtctt 300 ctgagtattg agtctcgaga atagacatga gttgcgtcac acgcacaaat acatctgata 360 cactctcgtt gggggtaccg tcgcttatag gaggannttt tgtcttcatc gatattgagt 420 ctaatgcata cacttctgat atagattc 448 355 288 DNA Arabidopsis thaliana 355 gagcggccgc cctttttttt tttttttttt tttttactct tgattttggg ctattttgta 60 ataagataac ctgaattaca atagcactgt ttgatcatag tattttcatt tgattaaaac 120 ggcaccgttt aggttaatct tggtcttagt tttcgattcg ggaacgccgc cgtcccaatc 180 acacaactgg gtaaaaacga tatggaagac gatggtcaga gctccgtcgc cgaaacccta 240 gatccggcat tgcagaagaa gcaccatgat atgctcgagc gtctctcc 288 356 352 DNA Arabidopsis thaliana misc_feature (1)...(352) n = A,T,C or G 356 tttttttgaa ggaaaaaaca gaaaactttt taagaaatga aagatataga accagaaggt 60 attattatgg tgaggaaaaa aaaagtacat accctagaga ctagtagtag tagtacacac 120 agtttacaac gcccatgtaa taagagagct ngggggaggg aagcatcaca agttacaaac 180 taacaacaac aacaaaaagt acaatcccaa actagacaga cgtactctta gtacaaacct 240 caacccaaaa gagatcactg aaaaaccttc gaatccaacg gaagaaccgg aagtaaaaaa 300 aaaacggaat tgactcaggc tcaaattcgt acacgcttga catcagtttg tg 352 357 204 DNA Arabidopsis thaliana misc_feature (1)...(204) n = A,T,C or G 357 tggcatctgc tgaagatgga gtagctatta atggaagtcc tcagccaaga tctnntagta 60 atttggagga catgaggact agtttcaccg gatcattaca agacgaaaac aattctaatg 120 gacttaacca gtctttgcat gatgctgcta gatctattga attggctgtt aaagagaaga 180 ttactccgtc cagattttcg tggt 204 358 495 DNA Arabidopsis thaliana misc_feature (1)...(495) n = A,T,C or G 358 tctagagcgg ccgccctttt tttttttttt ttaagcaaca aaacagatcg tgtttctatc 60 gaaattgtta tacaagaggt tctgtatgat gaaagttatg gacaagaagc atctaaaacc 120 ttatggacaa tgggacgagc tttacacata gcttgcaacg atgtagcttt tcgcattgtg 180 gttccttttt cactttctct catgtctaga tacttttctt caaccctctc ccactcaaaa 240 cattggacca atgatccaag agccaaagtc actagccgtt gagctagccc tgaaccaggg 300 caagatcgtc gtccaatccc aaatggcatc aactttttat cctctccttt tttctcaaac 360 ctctccggct taaatttttc tggctcttcc cataactttg gatctctatg gatggnncat 420 gcattcacca agatgattgt gccgcgtgga acgtcatagc catcaactat acaatcttct 480 gatgctaagt ggggt 495 359 502 DNA Arabidopsis thaliana 359 cctctagagc ggccgccctt tttttttttt ttttatttat gaaacttatt gatcgaagtt 60 ttgcacttga aagagtgttt ccagcatttc aagtaattca aaaacttttt ttcatattat 120 tatgaatcaa tgttttgtat gaaaaataag tttgtgttgc atctgccttt ttttgtgctc 180 tctgtttctg caagtgcact cgcatgctgc atgtggctag tgaaccactt ttgggaactc 240 agagaagtga tctcctgagc ttggagtgaa cttcatgctc accaaactcc ggattaccac 300 cacctgtgcc tgtggatact ttgtctgcag aatctgaccc ttctttggac tggtcgggac 360 ttgtatctgc atctgatgtg tttggaacac agtatttttg aagccaacgg tcagtttccc 420 agagaacgtg cataatgctt tcccgtgctg agtacccgtg gctctcgtga ggaagaacaa 480 caagacggca aagagcgccg tg 502 360 472 DNA Arabidopsis thaliana misc_feature (1)...(472) n = A,T,C or G 360 tttttttttc aattcataaa attgctttca agacaactca gaaaatcagt aatcagcttt 60 aaagccttac aaagagagta gattatcaaa atatagactc tttcttatgg aaaattacaa 120 tgaaactggt gattaatacc nnnaacaaat gaaagatcta agaaagtaac aacgcattac 180 acaacaaatg gcaccaaagg attaagcaga gagatcttgg aattgccaag ggttgaattg 240 ggtcaacttc acatcggttg tatcctcaga gttttcagct gtggcgcggt gcaccgagta 300 ctttccattg aattggtaaa cttcgagatc accccatggt gtaggagtga cttcttctgt 360 tncatcaaac cattttggag caaatttttg gcctttctct tctctgcttt tcttctcagc 420 tctttgtcta tcctctaggc tgctcttttc gaatccagat ttggacatat ca 472 361 397 DNA Arabidopsis thaliana 361 gacggtatcg ataagcttga tatcgaattc gcggccgcgt aaaacctttt ttctgaagta 60 tacgccacta caaaaaaact gttgtataaa taaaaatcca caaaaaaggc agaagaatat 120 ctagctctct ctctcaatct gtctgtctct gctctctcta tcttccattg aatatagaac 180 tttctatcaa gcacataaga acttgaagaa taattataaa gtttccaacc gaaagtatgt 240 acaaaggaag aagattgtct ttccttttct tctgctttgc tccagaggag actagagaga 300 cctatcagtt cagtttgtgt tggatttgac ggtgaactga aacgagaaaa tccacgtacg 360 aagccccacc cgatcccctg tcctctacca tatacga 397 362 430 DNA Arabidopsis thaliana 362 tccaagaaat atgggattgc taatcatact actgttcatt atgattttat gtgtcatgtt 60 gtgcctatca tcattcctta tattttagtt ggcaaaaaaa aaaagacttg gaagtattga 120 aaaccaaatc tgatctcaac ctagacaaat cgattaaagc taaaccgaaa accgaatccc 180 gaccggttaa ttgaaaaccg atccaaccct ttagggactc tagcttcact caaaagatct 240 acgctgctgt caaaccacct gagtacttgc tggctcttct ggcaggtggg aattgcttct 300 cctccatttc aaatactcgt taatagctgt tgtgccggtc atggtgagtc caaatccgat 360 catagtggct aagacaatgc acattaccgg ctgcttcaca tcaaatctta caactctgta 420 gaaaagctga 430 363 455 DNA Arabidopsis thaliana 363 gacaaatata tatctgaaga aaaaagtcaa tacaaggcca accctttctt tagcaatgtc 60 tagatccaag agcaaaacaa aaaagaacta catatataga gaacatgtga gacaaaaaca 120 ttgccttgcg aattaagcga ttcccatgtt ctcacgagtt gtatacggaa gagaaaatct 180 agtttgcttc cattgagaaa ctcgtcagag tagactgtga agaagtcact aaacagtgaa 240 ttacttactc accttcccaa cctaattgcc gagctctgcg ctcccacaaa aaagtgatct 300 tccgctcttt gagcaacaat gcttgagctc tctctctagc tgattcgcaa atttcagtgg 360 cagcgttaca cttctcagcc tccttttggt actgtgaagc aaccctttta gcttcggcaa 420 gtgtaacatt catatgacga ctatgctcgt ctgcc 455 364 461 DNA Arabidopsis thaliana 364 ttcgcggccg ccaaacacaa gcaccaaaca ggttatgtat cttggtctaa aacaaaaagg 60 aacacatgat cccacaaaca cacaaaaaca cacacataag ttctggctgc atgaagacaa 120 actgcagttt cttatccgag taacccacaa aagcaaacaa gacaacccaa attcaccgat 180 tgtttgaaca ttcaaaccat gacccccacc cttctaatcc tcctctctgt gaccctcctc 240 tctgtgatcc tcttctctgc gatcctcctc tacttgacac tcctctctgt gaccctcttc 300 tctgtgctac tcctcttggt gaaactcgtt gagatggtgc agatggtgca gatggtgcag 360 gtggtgcagg tggttcagat ggtgcagatg gtgctctttg ggactgttgg gacagagacg 420 gttgggacag agctggctga gatggctgag atggctgaga t 461 365 455 DNA Arabidopsis thaliana 365 cctctagagc ggccgccctt tttttttttt tttttttttt gttcgcaagc tagagcattt 60 ttatagaata ccctttagca atataaacag aatactcaga gttctttttt gtttttgttt 120 ttcaacttgt acagacagtg tggtaacata tgtaagtggt ataagaaacg aaccaatacc 180 taaacatcat cagagctcac acaacatgaa caccaaattt tattctagat gatgtgtgat 240 gagagttttt tacacctact acaatcggat ggtgcacata accgtggtcc tgaaatcaag 300 ttgatgattg aacggtggct ttgagacaac cgatctccaa gtcttcttct ttggatcata 360 catatgaatc atcaaagatc cagctttcct ctgttgtcta gtatgccttg tatccatcag 420 attataacca tccaaaagaa tcataacatg taatt 455 366 527 DNA Arabidopsis thaliana 366 tttatatctg aaaatttcta gaaaaatgag aaaaaaatat aaactatata ttctacagcc 60 tgcgtgactc ctgtggtttt tcttttccct cttgttttct ctttttaccc ctaaaaaaat 120 tatggaagtt gcaacaatct gtacaaatag agagagactt gtcccatata ttttcatgtc 180 acaacaaata agccttgact ttccacaaga tttcattcca gaaaatcctt ggctgagata 240 gccaatggaa aatgcctctt cttcctcttt caaatatcca atactcatct tcacagctgt 300 aatgccagat ccggatgctg cgacgaggac gaaccagtct gctgattaga gcccggggag 360 tttggtgaga ctagcctagc gttaaggtct ggcggaaacc ggtggaattc ttgtttgggg 420 taaggaaaca atgagccttg ttgttgcgag accggtgtgg cctcgttgct tacgtttggt 480 tgttgctgtc tagcaattcc gagcatctga tttgcattat ggttgaa 527 367 225 DNA Arabidopsis thaliana 367 gattacaagt ttccaacaat gattctttta gtattacaat ttttcacact ttactttcat 60 atcgaagctc ttttgtgtgt ggttgcggtt caaggttcat ggctattaac acggctatgg 120 agttcgagca tctcctgata gttggggtcg accgagagcg ctgcacgaca gtcccgcaac 180 gcactcgtga catcaccgat atgctcgtgg aaagccgctc gtaag 225 368 132 DNA Arabidopsis thaliana 368 acaaatgaca aattaactac tttgccagcc tgtatgtacc caatagcaac caaattcacc 60 acgttcttca acgggtttag aggaaaacca ctcaacccca aaaccaaaac aaattatttt 120 ttaaaaaaga ga 132 369 442 DNA Arabidopsis thaliana 369 cttggggatc aaaagtgatc aagtgcaaag aggagaaaca tttcctcggg tgtccaactt 60 cacattggag caagaagctt tggatacatc ttgttgagtt tgatcgacca gtttaacgtt 120 ttgcattgat attcctcgac atggaatgtt cttgctgcat acaaatttca cagctatggg 180 tcttgagctc gtcccttgta tgtttttgta caacacattg ctcacttgta ccgcggattt 240 ctgttcgggg catgcttcaa cacgatcgca gtagtcctgg ttgatgatta ttgggtttgt 300 aacgtttttc attatgatgt cttggaatat gatgttcttt gccattccat gtcctccctg 360 ccaagtcttg attctcacac cattagtggt tcctataaga gtcgctttgt tgactaccac 420 atttgaaaca tatgcttctg ag 442 370 480 DNA Arabidopsis thaliana 370 cctctagagc ggccgccctt tttttttttt tttttttttc taataaaaaa atcaaatctc 60 gattcaattt cgatctaaaa catctcttcc atgtaagtaa gtaacaaaac gaaattcaaa 120 gattcaataa agcataaaaa caacacatca aatttaaccc aaacaaaagc atattttgtt 180 ttgattaaaa tcatttagcc atgagtattc aaagcttccc aaaccaagtt cttaaccacc 240 ggattagcca cgtctctagc ttgataagct gctgtcttca aagtgttaat ggtcaacaca 300 tttgcttcaa accacgacat actcctatac ggaagattat gcttcttgca aagctcttga 360 accaccggag aaactttccg gagatggcaa cgaggtaagc gagggaacaa atgatgctca 420 agctgaaact gtaatccacc aaagaaccaa tccatgtatg atctacaaga gatatcgatt 480 371 486 DNA Arabidopsis thaliana 371 cctctagagc ggccgccctt tttttttttt tttttttttt tcaaagagtg ttgtgaagaa 60 caataactca aatatgagta tcacaaatca gtcatctttt acttctttct ctttgctgtt 120 ttggagtcta ccctaacttt cttgcacaca tacaacaaag agaagccaaa ctcatcaaac 180 actaaagtaa gatataaaag atgaaactga aacagaataa gcagttacta aacagccacc 240 tcttgaggga gatttcggct gtaaaatgga aactcgaaga gaaagaccgt cttgaaccat 300 cctggtaagt tcccatacac tcctcttggg aacagaatca gaggacttgt tgtcttcttg 360 taggatctgt aagctcctga gtttccatgt tttttgtcag ccgatgcctc gagtaatggt 420 atgccgctga cgaatagaag tagcaaagtg agaaagagtg gtccgaatat gacaagatac 480 tctgca 486 372 108 DNA Arabidopsis thaliana 372 cggtatcgat aagcttgata tcgaattcgc ggccgcgata aaaataaatt ccatttggac 60 tgggtttggc aaaaagtaat cagtctttgc acctccaact ggaaaaaa 108 373 423 DNA Arabidopsis thaliana 373 cgggccccct cgaggtcgac ggtatcgata agcttgatat cgaattcgcg gccgcttttc 60 tcatcgcaaa cttgaaccgt cgtaacccta aatcgccatc ttcatcatcg gcaaatcgaa 120 tctccgatta tatatcaaat agcttaccaa atccgacatg acccaggccc tcgttttcgg 180 aggactataa tgatcggact cttcgtgtcc cgtctcgatt gcatggggtt tgagctatgc 240 cggagcttcg ccgtggagtc cgccgtggcc gtgttactga tgctgtagct cccaatcagc 300 ttccgcaaac acctacagaa aagaaaccga agaagagtac cgttaaagct ccaaaaccgg 360 ttgccggcgg agttacagga gttgcagaga gcccgaggac tagattagcg gcgaggaaat 420 taa 423 374 480 DNA Arabidopsis thaliana misc_feature (1)...(480) n = A,T,C or G 374 ggccccctcg aggtcgacgg tatcgataag cttgatatcg aattcgcggc cgccaaaaaa 60 cgcaaagtct accactagac aagaaaatcg aagcttttca ctttctcttt tttctgnnnt 120 gttgtctttg gttctactct ccgcactgaa tctttcgatc agcgataatt gtttccttct 180 tttgggattt tctccttgga tggaaccagc tcaattaatg agatgagatg agaatgttca 240 gcttgcagaa gatggctatg gcttttactc tcttgttttt tgcctgttta tgctcatttg 300 tgtctccaga tgctcaaggg gatgcactgt ttgcgttgag gatctcctta cgtgcattac 360 cgaatcagct aagtgactgg aatcagaacc aagttaatcc ttgcacttgg tcccaagtta 420 tttgtgatga caaaaacttt gtcacttctc ttacattgtc agatatgaac ttctcgggaa 480 375 471 DNA Arabidopsis thaliana 375 tttttttttt tgcaaactag caatgagaat tcatcaaaga aaaaccaaga caaacagaaa 60 aatgttacta aaatcaacat aaaaagatct acgagctaaa aacgaaccaa aataaaaatt 120 tgagaaaaaa gaacctggtt catcttatga acgttgaccc aaacataatg aagctcgata 180 gaatccaaac tcttattaat gttcataagc taacctcttt taatcatata tatatccact 240 aaactcatga ttcatcgtta gctagctagc aacgattatg agtgtgtgtg tatatttgat 300 caatacggtg gtcgtcccgt tgaccaataa gactgatcat gttgctgctg caactgaacc 360 gaaccaagaa gattaggtgg taacccttga tgacctgaca tagcttgttg ctgatgttgc 420 agttgttgtc ccatcatcgg cggcgactcc aatgatcctc ctcctcctcc g 471 376 150 DNA Arabidopsis thaliana 376 tatcatcaca ctcaagtatc tttattctca aataacaaac aggtcccaaa gctttcaagg 60 gattgaaatt gaaactttct acagactaga agactgtgaa gaagacggca caacgaactc 120 aacaacaatg gtagaatcca cataatcacg 150 377 548 DNA Arabidopsis thaliana misc_feature (1)...(548) n = A,T,C or G 377 tcgtcaatca gaacattatt tggtttcaga gtttcgaaac atctgagttt tttccatgag 60 acaaaaacat ggatccaagg gtagtaattt aaacaaaaca atgaaaggtg aaacaaaagc 120 ctcatataga tcactaagga gtttcaattc tgaaagagat gcaactggat tctttaggct 180 gaaacaacgg cttgttgttt tgcttccttc tcttgcaagc tctcatagta tttgacaaga 240 acattccatc cactcggaca cataaatcca tctggaggat tctcccctgt tcttgcataa 300 gttcgcatct ttgttccaga aatgaaaaga aactcttttg cacgagaagg atcgaaaaac 360 gccatcttct tctcgattgt atcgtaagct gcaaccctaa atggaagaat attgagtttc 420 tcaagtccag gggccatgct taagactctc tttccatgat caggatcata tagatctctc 480 ttctcagtag ggtggnncat tcctgcagga tcacgaccta caatgtagaa attagcacca 540 gcgttaat 548 378 480 DNA Arabidopsis thaliana 378 tcgaggtcga cggtatcgat aagcttgata tcgaattcgc ggccgcctct gcttcttctt 60 cttcacatca ctgtgtgcgt ctctctatct ctctattcta tcatttcgaa atcctctcta 120 tccgaatttg aactcgtctc ttcttcgtaa agagttctta atctccgtct ctgtgatttc 180 ggaatctgga ggttttgaat ttcttgttcg tatcaatcaa atggtggatc gatttagtga 240 gattgcttta cctcattagc aatgacttct gcttcttcca tgtccgtgtc tgtggaatgt 300 gtgaacatat gtaatctaac gaaaggagat gggaatgcaa gaagcgattg cagtgctctc 360 tcctgtgctt ggaaagctcc aagagcgtta actgggtttc tagctagcac tgctcatcca 420 cctgtgtgtt ctgtgtattc atgtggcaga aatggaagaa agagcagaat gaaagcttgc 480 379 485 DNA Arabidopsis thaliana misc_feature (1)...(485) n = A,T,C or G 379 cgggccccct cgaggtcgac ggtatcgata agcttgatat cgaattcgcg gccgcttacg 60 gtttagtagc tctctcagca ttcaattctc acagctccac tctcagagga tatgaattta 120 ggttttctaa tgactggttc catgcattga atcacatctc ccactctaaa atcattccaa 180 tctccaaaca caagcccaca ctcgttccct ttcccgacct gttccacgtc ttgtttctcc 240 cgtttcagcg acgcacacga gccttcgaag accacttctc cgcttcgtaa cagcctcatg 300 agtccnnntc tacatacccg accatccatc actttgcaac ctgcgatgtt tactccatct 360 tcttcggttc ttctctttcc taagatcttg aatatgctaa gtacctcggc ttcaccagac 420 acctccatct ccgaaactcc tggtgctttt tctacgatca agttcccgat gtcttcgagt 480 aaatg 485 380 411 DNA Arabidopsis thaliana 380 ataaactgtt attgcgccta ctgatttaat ttgagaatct catttacaaa aacagcacaa 60 gctatcacaa ctttacaatc caaaataaca agagatatgt caactaactt aactgacata 120 aactattttt acctttgaat ctgatccgaa cttgagttgt tagccgctga tgaactagac 180 ggccgtccat tttcagtccc tgctttatct gaaccagctg cgacgccaac accccatctt 240 ctagaaagtt ctgatggctc aatcacttta accgaaccat cagacagtcc aaccgctaat 300 tgattcggtt cttgtggatg agctgtgatc acctgtggga aaatcggtgc actgtttggt 360 gtaggttgag gcatgtaggc tgatggggca atgcggcatc tgagtctcaa g 411 381 511 DNA Arabidopsis thaliana 381 tctagagcgg ccgccctttt ttttttttga caaatatgat gattctgtta ttaaccaagg 60 tattgacaaa tacatggaca aggtattgtt tagtaaggaa atacacaaaa tctacatgaa 120 tgaataatat tctccaaaac attcatttag caaaccataa tccatattgt tctaacaaca 180 aacaaggtaa aataagaaaa tgcttgagtg atttagtcac tcacgcttct ttaatccaaa 240 ctttccactt gggattctac tgagaaaccc agtatcaagc ttcttgtaat gactatgaaa 300 cttcataatc atagaatcca taaaaccatc cacttcgtct tcgtatctct catacagaac 360 cggcattgtg tgtgccccaa caaacccgat atacaaaaca gttaggaaat tgcaacagct 420 cccgaccatt gcagctaccc atagtccgat tacagccatg aggaactgtt tcaaattccc 480 tttacaagcc aagtcctgaa gaaacaacaa a 511 382 439 DNA Arabidopsis thaliana misc_feature (1)...(439) n = A,T,C or G 382 atattacaat cttcagaaag aagattcttc ctaaacattt taggttcaaa tttatagact 60 tcacttatta ggagaataaa actagaaatn aagttataga tgaagcacac gcaagaaana 120 agaaaggaac atatatacac acatgtatat atatgnnacg ntatatgatc ttcttcttcc 180 tcgcctgatc tctttccatc atcagctctc tgcttacaca ttcattaatg cgtacgtaca 240 aagataaaca taaatcatac acacgcatat atatctatac acatatatat acgtataagt 300 gtatatatgt gtgtatatat anaaaggctt tagtaatagc cattagactt ttggcctgca 360 actgactggt ctaattgctt gcctttcttg ttgccatcca gctttaatcc aaagtgaatg 420 tgaggaaaat gtgcccaat 439 383 326 DNA Arabidopsis thaliana misc_feature (1)...(326) n = A,T,C or G 383 cctctagagc ggccgccctt tttttttttt tttttttagt tggagagtgg attttgaatt 60 gaatagtgga agttatacca caatggtatt tttggataca aagggtagcg atttcattca 120 agaccgattg tgatcagagg agattaatta atacaataca aaatgaccaa aacgaaccaa 180 aaagcacagc aaataactaa gacaacccag tacaggacga taaagnnctc taatggcggc 240 tcttgatctc tctctctctt tctctctata taattccttg tctacttacc tctagttaag 300 tgcagtcttc ttcttccgca ttctac 326 384 478 DNA Arabidopsis thaliana misc_feature (1)...(478) n = A,T,C or G 384 cgggccccct cgaggtcgac ggtatcgata agcttgatat cgaattcgcg gccgcttgta 60 cttcaataat cacttatcga cttttatttc cacttttgtg atttaatcta taacctttac 120 caccatgaaa catatannaa gtaactttta aaccaagaac caataataga gaacgcatat 180 ccatttgcgt gaaaagtgaa aactaggact catcaccgat gattttcgag caagatggtg 240 ttttctgtgt gtttcagggc ttctcaagga aatgttgtgc gacgatacgg cgctgaatct 300 taccagaggc agttttgggg aggttatcag tgatgaacac tctctttggc accttgaaag 360 ctgccaaatt cttcttacaa aacgctttaa tgtcctcttc ggttacagta gttccttctc 420 ttggaatcac cgcacagtta atctcttccc catatttctc atcaggaaca ccgaatgc 478 385 277 DNA Arabidopsis thaliana misc_feature (1)...(277) n = A,T,C or G 385 tctagagcgg ccgccctttt tttttttttt tgatcggcaa gaaaatgtct tgaattcagt 60 tgcagataaa tcaagccgtg acattacgtg ttgaatagtt atcaagccgt gacattacaa 120 ataaaaagaa gaaggacgta gaagaaacaa taaaagaatg aattaagtaa gaatcatttt 180 taactttcac caaaaatttg tgacccnntt atctgtcttt agctctcaga agaaacatga 240 acaattagct ccgagagatt cagtcttcaa gggtcgt 277 386 433 DNA Arabidopsis thaliana 386 tagaagcaga aatgctaaca acaaagtgca aatgacattc gggtcaaaaa ctcttgagaa 60 tttcagcaat gtctaaaaaa gatgatcgaa tacaaactaa acaacaacaa catatagatt 120 tcaaaaggtt acaatattaa aagaggacaa caaaaccgga cttttcatgc tactaccagc 180 ttactcgaat agactgaaac ccatgtcatc atcggattct tccttttctt ccttcttctc 240 ttctttcttg gactcagcag cagaagcacc accacctcct ccacctccag atgtagcaga 300 agcaaccgca acaccacctc cgccaccaga cggcactgaa gctaacttct cccttccagc 360 agcaatcaac tcagccaaat cttttccttt cacttccttc aacaaaagct caatctgaga 420 atcctctgtc tca 433 387 504 DNA Arabidopsis thaliana misc_feature (1)...(504) n = A,T,C or G 387 cctctagagc ggccgccctt tttttttttt tttttttttt ttttttttta caaaaatatc 60 gacttctata tttacttatg ggtctctttc tagtttctac aactaacgtt tcgatcaaac 120 gcaaccgtta caaggtcagt gttcagtcag ttttactcct gcgttaatat aaacaaacca 180 tgtcttaaaa tcattgatga ttaaagatat gttacaaata cagtaagtta gttttgtttc 240 cgttacctct aattagtccg ctctgagcaa cttccccgac atgagaccga gacagcgatc 300 tgagattcat cagagacgct ggagtcagcg gaagaggcgg tggagaggct actctgtttt 360 ggttcctctc gggcaagggt tgttgggcca ttgctctctg gtttctagaa ggtatcgagt 420 agcttctcgg tacaacaagc ggtggannnn nnagtggtga tgctacaatg ttggttgaca 480 ctactacatt gcttctttct tgat 504 388 286 DNA Arabidopsis thaliana 388 acgtcgcatg cacgcgtacg taagcttgga tcctctagag cggccgccct tttttttttt 60 tttttttttt tagtaatgaa taatcatcaa tctattaaac aatgatttaa tacataaatt 120 gcaacaaaaa gagtttaaat tgataagaaa ctttagtcct ctctaacgaa ccatacaaac 180 attatatgaa tatgtaaaga aagaaagatt taagagaaaa gaacgttaaa ttgccgctat 240 aaaacgaatt ttcttcgttg tatgttttcg attagattct cccaag 286 389 216 DNA Arabidopsis thaliana 389 tttatcggtg caatagttgt agatcatgta tttactttgc acacctttca ttcttgtctg 60 gccgttcgaa tcgagttttt gagtgaacca tggggaattc gcggaacaag atgattttcc 120 attagcccat acacatccat cgacattgta gtttctataa aaagcagtaa aaggagcttt 180 tgaccaatct gttttctcta atcctcctct tgttgc 216 390 136 DNA Arabidopsis thaliana 390 tttttttttt taatatagac tatgaatttt atttccaatt gagtaataca ttatgctgtg 60 ctaaacagat acagatgtat acaagagctg ttacacataa cattatataa gcgttatgtg 120 acataccaca gaacct 136 391 335 DNA Arabidopsis thaliana misc_feature (1)...(335) n = A,T,C or G 391 cctttttttt tttttttttt ttttgggaat aaaggtgaat aagaacacaa ggaccatgtt 60 cataacaaat ccagtaggaa aattcttatc ggagaacaga tgttcagatt cgtttctata 120 tgcaaagtga tgatattcta gctattcaaa cggaaaagat ggttactgcc tcatatttgn 180 nngatgaaaa atggtttcca gttttctcaa gcccaaagaa tttatctcat ccccggttcg 240 gctgcctact gcggatcctt gttgcggttc tgaagagaaa atcgtggttc accggtgtga 300 cctggtttct ctgtgtcaaa tgatattgag cctga 335 392 256 DNA Arabidopsis thaliana misc_feature (1)...(256) n = A,T,C or G 392 atcctctaga gcggccgccc tttttttttt tttttgaacg agcagaattt gtgaattata 60 cttcagaacc tgatgattaa acatatcaag aacatagtaa cactaattta caaagacagt 120 aaccacccac caacattatg cacaccaaaa aggggtatta ccgttttctg tttacgacat 180 aaacgaccaa atagatnnac cgaattttaa agccgttata taaactaagt tccatactta 240 tatatagata gataga 256 393 154 DNA Arabidopsis thaliana 393 cctctagagc ggccgccctt tttttttttt tttttttttt ttgcattggt aaactaatgt 60 tcaccagaat ttactagttg ttcagaattt cagatcacaa ttgctgccag aacttaagca 120 aaggtagtag aactaattta caatttgttg aatg 154 394 594 DNA Arabidopsis thaliana 394 atcctctaga gcggccgccc tttttttttt ttttttagaa taagatttac aaatagaatt 60 gaagaatttt acaagttcag gtcaaatttg cctcaaacca atcggatgca agttcatagg 120 ccacaaatgt tacagcacca gcaggtgcag ctttaatggt tgatggaaca atgcctttat 180 aaagcccgtg ccaaccttca gatcttaata tctgccctaa accgtcaaac atgttcttgt 240 aagcattcag ctctactcgg gctccatatt ttgggtgacg ttgcagacct tcgacctgga 300 atcttttctt gacaacatca agcggatgac agactagttt agaaacagtg cccgaagcta 360 aaccgcaaag gaaaagctga aagctagaaa gactatcact tggattcgtt gagcttgatg 420 aagaagatcg gtatcgctta ttatatacca tactccagcg tttaaatgtg tcataggtgc 480 caaactgcag accagcataa ggaatgatct cgatcagagt aggggacaat cctgcataca 540 accctttgat tccacgagtt tgcactatac tcagaaatgc tgacctcata tttg 594 395 502 DNA Arabidopsis thaliana misc_feature (1)...(502) n = A,T,C or G 395 cgggcccccc tcgaggtcga cggtatcgat aagcttgata tcgaattcgc ggccgctgtg 60 tcattggata agtaaatcaa ccataagcgg atcaatttta tcataaaaac ctatataata 120 cacagaggag aagctcgcat atataggaat gcgttttctt ttgtatatga atgtcacaag 180 aggaaactat atattcattt gctcatttga tttgcttaac ctcttgaagc atttcaacta 240 ctttcttcat ctttggcctt tttgcaggtg tgatgtctgt gcaaagcaat gcaactttca 300 gagctgcann ntctctctcc tccaagcaaa agacacggtg ctaagcttgg catcgagtat 360 ctgttccggt gtttctcctc tcgctgaagc tccatggacc catttcacca aatctactcc 420 ttcaccaaac tcttnntcca ccggcgctct tgaggttaga atctcaagca acacaactcc 480 ataactgtaa acattccccg ga 502 396 548 DNA Arabidopsis thaliana misc_feature (1)...(548) n = A,T,C or G 396 ggtcgacggt atcgataagc ttgatatcga attcgcggcc gctttttttg ataaatctat 60 gggcctacac ttttgggccc aaatttatat aactcttctc gcgttaatca gaaactgatg 120 ctacttctca aggttcttac aaaatgtgta acaactaaca agtaagaact aaagaacaca 180 aatctcaaat ttgcttttcc agtttctcag gtctagaagg aagagattcc tgccagcagt 240 ctaaacttct cataggagac ccaaaacacg aactgccacg gtccaagcct tgcccatgtc 300 gggaagaaac ctttccacaa agctcttatt ccttcaaact taaccgtctt caccaaacag 360 tcgtaagaat ttctgtacac agcattttca ccctggttca tcatcctcgt cttcaccaca 420 tcagctggac aactcaaact tgtcgaagca aganncgaca ttatagaagc aagagtgtgc 480 gcanaaatgn tatcctcagc aatcttctta tcgatgacaa agtgtttggc gtgatcatag 540 caagctag 548 397 478 DNA Arabidopsis thaliana 397 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttc ttgaaatctt 60 tcacttccat tcatataaga acaagaaaga aaaacaaaaa aaaagggatt tagcagtgtt 120 accgaaattt acatgtggta aactctaaga aacaaaagat attataagcc aactttatcc 180 cccaccaatc aacaaaacca aaaaaaaaaa tgtaagtaac aaaagaaaga aatattgatg 240 tagattttgt atgtatcctt gtcaaatgta aataaaatgt acacctgctg ctgaatcaga 300 aaccaactaa aagtcattct tgttgttgcc tctgccacgg cagataacca gtcacttgat 360 cagcaaaatt cgacataacc aaatccttca atccagtgtc ccacacttca cagaaccgtc 420 gtttccaatc cggcggctcg attgcctctg tcccgagccc tggagctcga tctttaga 478 398 573 DNA Arabidopsis thaliana misc_feature (1)...(573) n = A,T,C or G 398 cctctagagc ggccgccctt tttttttttt ttttcgaaaa taaatagatt ccagtgtctt 60 aaggtgccaa aatgaggagt tttcaatcac ccaatgacat ctaaacataa tgacacaaga 120 cgagaaaata ttcagagctt gtcatcagtt ttggtgcgtt ctcttttttg aggttttaga 180 caagagcagg atactgcttg gactgcagct tcaccctttt cttgtactca actggatcct 240 gacagaagag atgataacca tctgtctgtg cagggtcagc gggattcggt gtgtcaagta 300 aatcctgaat accaacaaga atctgcttca cggtgatggc tggtctccat ccataatcct 360 cgttaaggat agnnngacag acagttacag atggatagac attagggtgg aaaaaccctt 420 gtggaaattt acatttcgga ggtttgctcg gataatcctc actgaagtgc atcgttaatg 480 gaaagaatcc accttcccaa tcagtcccag ctttaccagg tatagtgcaa tgccacacca 540 ttagattcac agttccatcc tgccccgtct ccg 573 399 531 DNA Arabidopsis thaliana 399 cgggccccct cgaggtcgac ggtatcgata agcttgatat cgaattcgcg gccgcctctc 60 ctcgttttcg cttcgtgctt atttgtcaaa cgcgaacatt tcaccgaaac ttagcgactt 120 ttctcgcttt actctttctg ggagcaattt ctcagagcat aggcgagctt aaaggtgaca 180 gttcttagct atggctacga ttacaccttc ttctattagc aatgcctggc tcattcctgg 240 agcttctttt actgtaaaga agagtgattg ttccatcaaa tgtagctttt cgcgtaaagc 300 tgggaaacag attctatcat caacgcagag acttgtgtta cctttgtcga cttcacttag 360 attgtttcct acacatggaa ggcagtttgt gttgcatcct catcgtagag ctactgggac 420 tgatgttgtg gcggctgtag aggaacaaga ttctactcct gttgttgcgg aggataaaga 480 aaccgtggct agtgagaagt cagatgctcc tgctccaaca tctcagtcaa g 531 400 534 DNA Arabidopsis thaliana misc_feature (1)...(534) n = A,T,C or G 400 ggatcctcta gagcggccgc cctttttttt tttttttttt tttttttttg gtactaataa 60 gggaatctca aatgaaacca tttagtaaaa cactagaatt aatggaagaa actgctgctt 120 cacctttcac ctactatgaa ttgagtaaga caatataata acctacaatc tcagagctat 180 cctctcaaag tgtataataa taacttggga ggctgcatgg tgcgagcttg gtgaacagac 240 cagacctcac ctcggttgtt gatctgaccc gggagctgag gagacgcttg gccctgctcc 300 gttttctggt ggtgcggata ttccccactt cccttctgga cctggtggtt cgatcacgtg 360 gaccccacca tcggttagtc caactgcaaa ctggtttggt tcagacggat gtgctgcaac 420 tgtggctgga tatactctcg agctcgggtt tgaaggcaaa tatgaattgg gannaatgcn 480 ncncttcagt tgcaatgttg ttgccgtcaa gatactcaca cttccatcat caaa 534 401 492 DNA Arabidopsis thaliana misc_feature (1)...(492) n = A,T,C or G 401 ccgcaaagaa ttgaagtaca attacaattg ataaatccgt tgcttaaacc aagcannnaa 60 tgtaaacgca aaaagagccn nggtggttac atggttaggc tacattggct aacaatggag 120 gaacaaagct cgatccttta agagtctgct caaatatgtg acccactttc agcaatttct 180 cctcatcaaa cgctgctccg atcatttgaa gaccaacagg aagacccgag ggaccacctt 240 cgactaatcc acaaggtaat accattgcag gaagtccggc aagattcaca ttgaccgtca 300 taatgtctcc agcatacatt gccagtggat catctttctt ttcaccaatc ttgtatgcag 360 cagatggagc tgccggagaa ataaggatat cgttctgttc taacgctgct ttgaagtctt 420 ttcgaattag tgtcctcacc tgttgagctc gcttgtagta agcatcgtag taacccgcag 480 aaagtgcata tg 492 402 554 DNA Arabidopsis thaliana misc_feature (1)...(554) n = A,T,C or G 402 cctctagagc ggccgccctt tttttttttt ttttaagaaa gaaaaacatt tcaattttgc 60 attaaaaagc agaagagaaa actcaaatgt taaataaaaa caatgcatga agattatgaa 120 tgaaacgagt atttggagat tcattagctg tatcaaaaac tcaagcaatg tttaatctga 180 ctcatgttaa aaatctgatc atcatgcttt attactacta cccaataaag tcactagctc 240 aactttcttc atctttgaaa ttcctttgag tcctcttgat tttgctatgg ctctaagttc 300 taccaacttc agtgcactca aatcttcgtc tttcgcagtc tcttcctcgg tagtcggtat 360 tgagagactc gtcatcatct gataactcat ctataacgnn ntatgatcct cctcatcttc 420 atcttcctct tggtaaaacg actctagttt cagctctgac actgattcga gaatagcaag 480 ttctggttca gattcaggtt catactcagc ctcaggttca ggttcatcat actcagctgc 540 agactcaggc tcag 554 403 325 DNA Arabidopsis thaliana 403 attggcaggc cagatcagag agcaagaccg agttcgtctc atgctattag aaatctcgat 60 gataaatcac tgtttctgcc tcacaatgtc aatatcggac gtaatttcag tgaagatgaa 120 cggaagcctc tggatggtca ctctgctcct cgtagagtgg tcagtgatga tgtttttcgg 180 tttgcgaata accgtttgga gatgaaagca gactcggttt tagctgggag gcatagtggt 240 tgggcagctg gtcctttgac tcattctggg actggtaata ttgagaactc agtgtcagga 300 aatcactcta atatttggaa tggga 325 404 179 DNA Arabidopsis thaliana 404 tttttttttt ttttttaaag aaagcttgca agagcagtat atatattaca aaaaccgcaa 60 gtgttggcat ctctcgaggg actaaaaaca caagagaagc cacaactaaa caattacaaa 120 tcttttaagt ttcacatttt gtaaatggaa gggaagaaga acaggcactt tcttcttgg 179 405 186 DNA Arabidopsis thaliana 405 tttttttttt tttttttttt ttttttttag attaaatttt gtttcccttt ctacgcttat 60 tagaggtctg taaataaaag tagttgattg tgaatagaaa ataaatgcat tgtagaatca 120 aaagatagga aatatttcat cttctggcaa cactaataat aacacataaa gaaacctcca 180 tccgaa 186 406 198 DNA Arabidopsis thaliana 406 ggaatgatct ttgggctctc ggctgcactc tctatcagat gctttcgggg acttccccat 60 ttaaagatgc aagtgaatgg ctgattttcc aaagaattat agccagagat ataaagttcc 120 caaatcattt ttcagaagca gcaagagacc tcatcgaccg gttgctggat accgagccaa 180 gcagaaggcc aggtgctg 198 407 502 DNA Arabidopsis thaliana misc_feature (1)...(502) n = A,T,C or G 407 ttttttttta acaataaaac agcctttacc ttccccaaag tttgaaacca ataaatgaaa 60 gaagaagaag aagcagaaat taaaagttat tataaggagt gaccaaatgc agaagaagaa 120 gaagaagagt aaatttcaaa tctgaggtaa tctactcatg atctggttat ataccgattg 180 tcctgaatct gaaaccggtt caacctttgg ttccatccct ctctgcatca ttgcttcact 240 catcccaacc ggttgtgtca tatacgggtg aggcaaaccc ggcattttcc cttgaccata 300 cgctaaacca ggcattgaaa gattaaccaa accggtttgt cctaaaccga nnnngaaacc 360 agaaggagga cccaaatgtg gctgaaagct aaagggacgg ctaaaaggag actgattgtt 420 agttgtgact tgtctgtcga atctcccacg tggcggctct gagtgatgac cgttgtggta 480 atggtgagaa actgcggctg aa 502 408 448 DNA Arabidopsis thaliana misc_feature (1)...(448) n = A,T,C or G 408 catcgaacaa taaaactgag tcatttagtt gtctttggaa ctcactacga aagcatctga 60 gaggaaataa atgggatgac aacaaacaag agatggagag agtaaagctc attcaaaaat 120 gaacattttg ctttattatg agatacaaat caaaacatga caagaacttg tgattctcat 180 ttcaagggac acactttctc gaaggcttct tgctctttcc tacacagatc aaactcnttt 240 gtgtagtaat acatacaccc aacataatca tccatctcct tttggcactt ctggtgaaga 300 tccttcagca agccaagcac gcagcgagtg acgtcacgac ctttgtcgag acacttctct 360 gggtttggat cattcttctt gcatttgagg aacgcaacat tctccggcat acacctcata 420 cctatatgct tcgctgacgc cgttaaaa 448 409 384 DNA Arabidopsis thaliana misc_feature (1)...(384) n = A,T,C or G 409 tttttttttt ttaacgtcga acccattttt ctaactttct cctttacata atggaaagtt 60 caacataata tcacacaagt aatgaacaaa agccacttat gatgataacg accatagaaa 120 aacagagttt tcaaaatata tgcgcggcta agccattttc atcttcttta tctgttgttg 180 ttaagaacat gtcgaagccg gaatgtttca ccttggtctc cattcagtga ccgcctttct 240 aaacagcaca cggttaactg tcttagcagt ttctctagat gggattgcnn gtgacagctt 300 ctctgcacat ctttcttatt tggatttgtt gatagtattg ctgcattcac cgcatcagcc 360 actaattccc tctgtgagtc ttct 384 410 494 DNA Arabidopsis thaliana misc_feature (1)...(494) n = A,T,C or G 410 ttttacattg aagaatgtct acacatagat tacatatagc tttttagcca agatcaggga 60 caatgaagtg ttcctcatca tcatcatcat atctggtctc aaacctcggc ttcttgtgtg 120 aaacatttga cttcataggt ttgtatgaat gaacatgacc taaatgcgaa acagaaagct 180 caggaacttc agctgcagga agagccttgt cattaatctg atcaccgaag aatcccatgt 240 ctgaaaacca atccaactcc cctgccccaa gatcaagctg tcctttcttg tcggtggatt 300 caatatcaga gaagtgaaag aaatcgtcaa cagcccaggg aagtggagta gcagaagaag 360 gttgttgttg ctgctggctt gtggatttag caggaatctg attagnnttc tgttggttgt 420 tggaagnnnc aggttgattc ttctcaattt ctttactaca tatagttgag gtcagagcta 480 ctttgatccc agtg 494 411 536 DNA Arabidopsis thaliana misc_feature (1)...(536) n = A,T,C or G 411 gacgtcgcat gcacgcgtac gtaagcttgg atcctctaga gcggccgccc tttttttttt 60 tttttttttt tagtaaaaac taaaaaaatt catttcatgt catgaggaat gcaacaaaag 120 ctttctagca aattccaaaa cataagatta nnaggaagaa ataagtaaat tgtcatcatc 180 aaaatttaga ttagcaaaat ttgatctaag aagataatcc ctaattaaat tattggaaaa 240 ataaaaaggg atcaaatcaa ataagctgtc tgaaatctgg gccaacgttg tggtggatca 300 agtaatcatc accgtccgat gaaacgtcga aaatcatggc agtgtccgta ccgtgatggt 360 gatgtatgaa ctcatgatgg gccctactca tctccttctg tcgccggagc tccataactt 420 tccgatgaga atttgagtgt ttcgccagca caaacgtcgg actcgccgcg ggccgatact 480 ccggcactaa acgtcccgat ttgtacctaa caccgcaagc gttgcacaac gtcttc 536 412 555 DNA Arabidopsis thaliana misc_feature (1)...(555) n = A,T,C or G 412 cctctagagc ggccgccctt tttttttttt ttttttttat tcccacatat aaaagattaa 60 tatattgtta ccatttaact acatctacaa aacgaaagta ttcgattata tagttggatg 120 ggaatacttt attggatcac aaattcaaac atccatctat cttttcatct ctctgatgag 180 tggtgactct taaattgaag aagtgaataa gattccctac agcttggccg agaggtaatg 240 aggagtgtcc caatcagtct tgatgtgggt tcggctgatc tctctcagtg aacggcaacc 300 acttagtgcc attgtaagct caaactcgtc tcttagcatt tgtagcatct tcctaactcc 360 cgcttctcca tccgctgcan nnnnnaacaa gctcggcctc ccgacctaac ggaacaagta 420 attaatcaca tgtcctttgg atatttatat gatcagtgat aatactcata tgcagcaacg 480 ggacacacat ttgtttcatt gtttggcttc atttcgacaa attaaaaaca acttaataaa 540 acagaggata tattt 555 413 484 DNA Arabidopsis thaliana 413 cctctagagc ggccgccctt tttttttttt ttttttttta acagaaactt cagagttcca 60 aggaatagat aatgagtatg aaaatggatg tctaggagtt gtttactttt gagtgttctg 120 tacaaaatgc atataaacga agtacatata ccagcgtgac aggttgagcc aaatttgcat 180 aagccaatgt acaaagttct accttaagca tagagacacc aagaactgag agaatactat 240 gaattcactc acgactgcag ctggggagtg gagacccaga aacggaacca catcaacgtg 300 cagccaggtc tcaatggctg atcccaccac tgcacctgcc actaatcctc ctgccgtcaa 360 cgcagctgct ttccctagct tgactttctt tttggtcata aagtataggg aagccccaaa 420 gctgctagcc aatataagtc cgggcacatc agcaccagca taaggcatcc cagaagattc 480 aaag 484 414 526 DNA Arabidopsis thaliana misc_feature (1)...(526) n = A,T,C or G 414 cctttttttt tttttttaga tgaaactcat gaaataaaac tcattactcg attgtaacca 60 aaatggttaa gttcagacca aacactcnnn ntcatctatt agtcgatatg gttgagttca 120 gaccaaacac acacattcat ctattaatca atttggttaa gttcagacca aacacacaca 180 ttcagtcatt aatggatatg gttaagttca gaccaaactc attaatcgat aaaactcaca 240 acaatacata catttaaagc atttggtctc ttccacaatt gatgttggca ccatttctat 300 tcttcccagt cctcttggta agagctcatg agatagccac atgatagaag ctcctggtgt 360 tacaaagaat tgaacaatat aaccacaaga tccggtttga agttgacttg gtgaacaatc 420 tcatcgtcga tcatcattcc ggcggttgta tattgagtat atgtggttgc tctcccgatt 480 tcacggacgc gtgggtcgac ccgggaattc cggaccggta cctgca 526 415 283 DNA Arabidopsis thaliana misc_feature (1)...(283) n = A,T,C or G 415 taaaatagta actgacaatt acaacacaat tattaacaaa gagacacaca aatgtacaaa 60 gcaaccaaat gatctttaac accccattta aacaacacac aaacaaacag cataaagttg 120 cacaaaagcc acttatgaag gaggtggtgc tttgttctgg ttatttttgt accaaaanna 180 cgacgcaaga acaactgcca gcggacgcgt gggtcgaccc gggaattccg gaccggtacc 240 tgcaggcgta ccagctttcc ctatagtgag tcgtattaga gct 283 416 537 DNA Arabidopsis thaliana misc_feature (1)...(537) n = A,T,C or G 416 atcctctaga gcggccgccc tttttttttt tttttttttt tttttttttt taccaaacta 60 ttacaatata tatttttcag atcatcccat tataaattgg gttattatat annaantttc 120 tggtcataaa ctttccagaa aaagtaacgt tacaaagttt acggaacaaa agaaaactta 180 aagagcatag tatgcttata agtttccccc ggttcaatta tctgcgaaga acgatattgg 240 taattgattg catgtgattc tagacataaa ccagagtaag ctttatgaac cgatccattt 300 tttggtttag tggttttcaa ccttagaccg gattggtctg tagataactc catttttatc 360 ttcgatttat tgtccacaag ctccacgact tttctcatct tatttgcaac accatctaga 420 caataattta taccataccc tgtcttannn tcanngatgt tgtctttaat aggtcggagt 480 tggcgaaaat cgaagggtgt tcctttaacg gcgaggattt tcccggttgg agtgaga 537 417 474 DNA Arabidopsis thaliana misc_feature (1)...(474) n = A,T,C or G 417 cctcgaggtc gacggtatcg ataagcttga tatcgaattc gcggccgcat gaattcctgt 60 acttttgaat attgaactca atttctttga ttttggtgtt tggtctagtt cttgataaga 120 atcttgttat gaaacttttt ttgtattttg ttatgtgttg acagtaatag aaggtactct 180 gaggggatat cttgtctcag agatggaaag tctttgaaaa gaatcacaac ggcttctaag 240 aaagtgaaga cgtcaagtga tgttctcact gacaaagatc tctctcattt ggtttggtgg 300 aaggagagat tgcagacatg taagaaacca tctactcttc agcttattga aaggcttatg 360 tacaccaatt tacttggttt ggaccctagc ttgaggaatg gaagtttaaa agannnnnac 420 ctcaactggg agatgttgca gtttaagtca aggtttccac gcgaagtttt gctc 474 418 433 DNA Arabidopsis thaliana misc_feature (1)...(433) n = A,T,C or G 418 cccatccgac aaatggtgga acaacatggc tgcatgagga tcgttctgtg gagaaggatt 60 cagctgttgt ttcaaaactg cgttcttgtg gtgcaatctt acttggcaag gcaaatatgc 120 atgagttagg catggggacc accgggaaca attcaaatta cggaaccaca agaaacccgc 180 atgatcctaa aaggtacacg ggcggatctt cctcaggttc agcagctatt gtagccgctg 240 gactatgtnn agctgctcta ggaacagatg gtggaggttc cgttcgcatt ccttcagcac 300 tttgtggtat aacgggactg aagacaacat atggtcggac agatatgaca gggtcattat 360 gtgaaggtgg aacagtggaa ataattggtc cacttgcttc atctctggaa gatgccttct 420 tggtgtatgc tgc 433 419 529 DNA Arabidopsis thaliana 419 cctcgaggtc gacggtatcg ataagcttga tatcgaattc gcggccgcca cagaacaagc 60 atatacttac agagtttctt cttattctac tctcttcctc caccacctcc ttgcatgttc 120 actagtctcg ttcttggtaa tgaactaagg agtcaagttt cagttgaagc tgttgagaca 180 gaggaagaag ttgaagatga agatgaagat aatagttctc ttcctttact actgttacat 240 tggttctact tcctctgttt tagcttccat cgacaatgtc aacgagctct ctgttttgct 300 gtcggtgaaa tcaactcttg tggatcctct caactttctc aaagactgga agctttcaga 360 caccagcgat cactgtaatt ggaccggtgt tcggtgcaac tcaaatggca atgttgagaa 420 gctcgacctg gcggggatga atctcacagg caaaatctca gattcgatca gccagctgag 480 tagccttgtc tcgtttaaca tatcatgcaa cggattcgag tcgctgctc 529 420 109 DNA Arabidopsis thaliana 420 ctaatattgt tcattagaaa ctcagatatc aaccccatat ttccagattg acgtttttta 60 aacctccaat tttgatactc tacaaaaggg aggtcaaaag ataaaagaa 109 421 406 DNA Arabidopsis thaliana misc_feature (1)...(406) n = A,T,C or G 421 aatagaagta tctacctttc tatggcttag aatctaaaat cttctatcta actgctgaca 60 gattctagat tgatgttggt ttctgctttt cttgcatcta gctgctttct ctaaaagtgt 120 ttactcttcc ttcaggttct agaggatcaa tcctgacaat tacgctctct gttggtgttg 180 atgccattga atcagcttga ctgaagtcac ctaatatctt ttgacatgtc tcaaccagac 240 agtgtctgca tttcggacat gtcaaatgat gttgaagcca cttgtctatg caacgaacat 300 ggaacccatg attgcacttg gggagcagcc tgagctgttc accagnnnca aaatccgaca 360 aacaaatgac acactcttca ccaatcccgg gcaagttcat ctcacg 406 422 497 DNA Arabidopsis thaliana misc_feature (1)...(497) n = A,T,C or G 422 ggccccctcg aggtcgacgg tatcgataag cttgatatcg aattcgcggc cgcgtaacca 60 tggcggagaa agtatcggag gacgttatgc ttctacacgg tgacctcgat ttgaaaattg 120 ttaaggctag gaggttacct aacatggata tgttctcaga acatttgcgc cgtctcttca 180 ccgcctgtaa cgcctgtgct agacccaccg ataccgatga tgtcgatccc agagataaag 240 gcgaattcgg tgataaaaac atccgtagcc accgtaannt tatcaccagc gatccttacg 300 tcaccgtcgt cgttcctcaa gcgactctag ctcgaacacg tgttttgaaa aactcacaag 360 agcctctttg ggacgagaaa ttcaacattt ctatagcgca tccgtttgct tatctcgagt 420 tccaggtcaa agacgacgat gttttcggtg ctcaaatcat tggcacggct aagatcccgg 480 ttcgagacat cgcatcg 497 423 494 DNA Arabidopsis thaliana 423 cctctagagc ggccgccctt tttttttttt ttttagagga gaaagaaaaa cgctaagcta 60 ccacatatca ttcattagat atactattgt tctcaggaag atatgaacaa caacaaaaag 120 acatcttcct ggatctgatg aagccatatt gttccaacat ctatgatcta atctatacgc 180 agagatggct caacaaggta acaacgagaa atatggttcc atatgaatct tccgaccgtt 240 gaagctgatc ttttcaagtt tctcctgaca ccaatgtaac ttctcagtag taagtttcga 300 catgtacatc actcttgaaa ccagtctcag ttcaatttta gctattagta attcatcctt 360 cacaccaata ctactctttg attcattctt ctcggacgcg tgggtcgacc cgggaattcc 420 ggaccggtac ctgcaggcgt accagctttc cctatagtga gtcgtattag agcttggcgt 480 aatcatggtc atag 494 424 150 DNA Arabidopsis thaliana 424 ggaggtgaag atgaagtaag agcaaacaat tggtagtcgg aaacaatcag attgaaaaca 60 cactcatggc ataagcaatg aaatcacaaa agcattccat aaattacact ggttccggga 120 tacacaacaa acaaacagaa gcagagcaaa 150 425 506 DNA Arabidopsis thaliana 425 ggatcctcta gagcggccgc cctttttttt tttttttttt aggtcttaaa agaacttcta 60 gaaagagtgt ttcaatttca caagcgcaac caacaacgtt aacaagctca acttaagaga 120 aaaaaggact aactattgtc ttacaaagta gaaagatgac taaatactat ttactgtaaa 180 acttaataaa aggcctttga cacttctctc cttattcagc tcaattcact gcagcatgct 240 ctctgtctag taccttcttc cctgtggaaa ttggtcagac ccgggctggc ctgctggatt 300 attgttgttc cagtctcgat tcctctgatc tgcctgtggg aatgtctgat tctgctcttg 360 tcctggtcca gaatacccct gaccatagcc aggatttcca gctccaggtg caggacctaa 420 gtttccagct ccagatgcag gaccaaagtt tccagctccc tgtggattgt aattcctagg 480 tcctccttgg ttgtaaccac cttgtg 506 426 100 DNA Arabidopsis thaliana 426 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt 100 427 589 DNA Arabidopsis thaliana 427 ggatcctcta gagcggccgc cctttttttt tttttttttt tgatatataa ctctgtttct 60 acagctttct tataataaaa taatatcaca ttacagggaa gctaaaacgt gaaaagattt 120 gattctatga tgatatataa tctttgaatc aataaaatac aattattttt cactcaaaat 180 acgccgtgtt aaaaggtttc aggcaaatga ggttcggttt gatcatttac ttttgcctca 240 ctgatggatc aacggctaga aacagatgag ggatgattgg ttgcgacttg ttggctcgaa 300 gcttcgtcag cttgaagttt cttgactcga gccttatcga ttcgtgctct tctcacagct 360 tcttggatat gtcggtcatg gtctttcaac acttgatcca tgtttcctga tggaaccact 420 aacggtcctg agtaatgaat cttgtgccct tttgatccat aacccaagag aatagggtct 480 ttcttgttgc ttcgaccatt ctcttcctgg tttgcttctt cagacgtttc cttgaatgaa 540 cctggaagcc gagtcattcc tctgcaagtc tcttgttgtg gtgcgcctg 589 428 413 DNA Arabidopsis thaliana 428 ccgccctttt tttttttttt tttttttaca aaatatatta ccacacttta cattgataca 60 ttcttccttt tgtccaaaaa catatataca aaatactgga actgtttttt atcaagttcc 120 aaattacaaa catatcgttt tagcttttga taaaaagaaa acatggtatt gattttagct 180 gtgtaaatag agagatatag tttcaatagt tcaatgaagg atatagataa tcccatgttg 240 ttgttgatac ctgttttcag acacggtaca gcttaataac ctgatcgatc ttggctcgac 300 agacgggaca tccccaattc ttggatttga tctccttcaa gcaagacata catcccgcga 360 catgtccaca cgggacacag actgcttcag atggagcatc gagacatatc gca 413 429 407 DNA Arabidopsis thaliana 429 ccgcatcgct tctccgttct tcttcgagta gatctacttc taaatcctcc ttgatcggga 60 gccgaaaccc gaggctttta tcccccggtc ccgcgcatgg agccgctcca tgtgggactc 120 tccttggccg agtcgccgag tattcgactt cttctccggc taattcggct gcaccatctt 180 ctgctcctgc taaagatgag ggaaagaaga cctatgatta cggtggcaaa ggcgcgatcg 240 ggcgtgtgtg tcaggttatt ggtgccattg ttgatgtgag attcgaagat caggagggat 300 tgcctccgat catgacatct ctcgaggtac aggatcatcc aacaaggttg gtccttgagg 360 tgtctcatca cttgggtcaa aatgtcgtta ggaccattgc tatggat 407 430 526 DNA Arabidopsis thaliana misc_feature (1)...(526) n = A,T,C or G 430 ggccccctcg aggtcgacgg tatcgataag cttgatatcg aattcgcggc cgctctaaga 60 cctttcttct cggcatgttg cttccacagt gggatgatgg agtttagata caatatttgt 120 ttattaatac cnaacaatca aaaatagata ctaagttttt nnnttttcca aagctcaaac 180 ctaatgtaca aattcagtaa agctttcgac accatctcac ctaaatatct tggaccttta 240 ttggtgccca cttctcatga atccaagctc caaagaagag aagctaagta aacactaggc 300 caaggtaaac caagatatat gcttttcgaa ggaacaagca atgaaaagct atagacttcc 360 atgtgattaa atgcaccagc agacagatcc caatctcaaa agttatctag ctatagccac 420 tctgtagttg agaatcagat cctcaggttt cttccataca tatgcccgta cagttgctaa 480 actcatatct ggagataaga cctggctatt acataagatc tcaatg 526 431 421 DNA Arabidopsis thaliana 431 cctctagagc ggccgccctt tttttttttt ttttacaaaa tacaatcacg tatcacatta 60 tcacatttta agattcctcg ttcacaattc tgtttgctta gacttcaaag aacagagtag 120 cttttatgtg atatctcaac gaacactcta tattactata ctcttcatct tcgtttgcta 180 aaccgggaag gactaaaccg gctaagatca acacttgtgg ctacaccgtc tacaataagc 240 tcagccaaag cagcaccagt ggctggacca ttaagaatcc cccaacaact atgccctgtg 300 cctacataac atcccttgat tcctggaatc tctccgatca caggaactcc atcttctgtg 360 ctgggcaaga aacaagcttg ctctgctttc actagagcgt tttcttcgtt tagatagctc 420 g 421 432 213 DNA Arabidopsis thaliana 432 aggtggcggt tcgatatccg ctatttcaaa tttctccatc gactttgata aatcatcaac 60 cgagaaaggg atgctcgagt cgtcatccaa aaggaatgag ttgctaacag cattgttcga 120 atcttctgtc attagcaccc tcatatttgc tattacgtct ggagagacgc tatgggtgcc 180 gtatttgtcg tcccagtaca tggtactgat tct 213 433 423 DNA Arabidopsis thaliana 433 cctctagagc ggccgccctt tttttttttt tttttttttc acacaaattt tctttgtaaa 60 cgaagtctga gcctgaaaag ttaataaaca aacccacaaa tgttgagaac acacacacgc 120 actaacatca accccaagtg tcatagatta gatataaaat tcagtgaccg gcaccggccg 180 atggatttgt tagcaactca agtgacttct tgagatgttc tacagcagtc gagacttcat 240 caaaagccaa agctcccaca gcgaatctag cagccttgag tgcctctgca accttctcag 300 gccctggctg gtagctgcta tcgtaatggt acttctgagc tgaactcggt gcaggatcta 360 gcacgggagc aatattgata cgcccgtttg atgagtaagg tggaggagga ggagcagagg 420 aga 423 434 424 DNA Arabidopsis thaliana misc_feature (1)...(424) n = A,T,C or G 434 cctctagagc ggccgccctt tttttttttt ttttttaaga aagttgttta tgnnnttatt 60 tctagaaact caaactagaa accatataga gaattcaagc tacaccaaac ccttcgaata 120 aaaatttaaa tattgagcag caaagcactg ccaaagttaa aggctatatg attggagagg 180 tacaaacacc aaaaaaagtc tttgagacga ttcaactttg atcctattac cgagcagaca 240 ccatggttac tattttgaag ctaacagaga gtaggagaac ccataaacac atgaagacta 300 acatagctct tgtcgccgta attcctgtct tgcttcccga ggcagtcatc gcatcatcct 360 gttggactac cccgaatgaa aggactacgt tgaggttacc gttcttgtca tatgaccagc 420 ccat 424 435 413 DNA Arabidopsis thaliana 435 ccgccctttt tttttttttt tttttttttt ttttttaacc acacaagata cttctttact 60 actttcaaac aaaagtctta ataatgttaa aagacagacg gatacatcat caccatcacc 120 aagaaaagag tcatcatgac atttttaaca atgaacaaac taaaaagagt catcatgata 180 tttttaacaa gaacaaacta caagtcttat agaagttttc ttcggtattg gaagcagttt 240 ttgcaggtca gagcatgcaa tcagttcttg caggaagcct tctgaagaaa ttgagaggaa 300 cggatggtag tttgtatctg aacctcggat gtctcagagc atagattcca atacaaagag 360 ccacaacctg gaaaggtgtc acatagagaa tgactgcggc aatcaagcag aac 413 436 540 DNA Arabidopsis thaliana misc_feature (1)...(540) n = A,T,C or G 436 tttttttttc ttttgaatat catttaacat tttattcaac aaaataataa taaatcaaaa 60 tagattacaa ggaagaagag ccagagaaat ttctctgcaa ctgagtcata tcttgagaag 120 caacatcaat tgtaccattg agaaaaccag tgtaccaaga agcagagagc tttggcgacc 180 tcttgcgacc aggatcgcta aaattgacat agtacattcc gaagctgctt ttatatccaa 240 cctgtacctc aaacaaatct atcagcgacc atacgnnnaa cctctcgtgt ccgatccact 300 cttgatagcg ttgaggacag caccaatgta agcttgaatg tattcaactc ttggtgtgtc 360 ttgtagcatc gaatcgtgtt tcatcggtga accattttca agaatgtaga ttggaggatt 420 gttatagcta tgctttatat gctgaagaac accttccaga ccccatggaa cagcatcaaa 480 cacgaatgat gaagagttcc cagtggagat aatatacgcg cccatgtctg taaagaagtc 540 437 396 DNA Arabidopsis thaliana misc_feature (1)...(396) n = A,T,C or G 437 tttttttttt taaaatgtgc agtagatatc ttaaagaggg aagctcctaa tagcaaatca 60 cacggtgggt ttaagactaa ccacaaaaga caacatacat aaacttctag aaaacaacaa 120 catttagaga taatgaagca aagtctcacc tatgcttcag atttgatggt agcacttgca 180 ttttgcgcac tgcggaagaa gaagcattac tctcaagaag ccattccctt gcgcaaatca 240 gagcctccac tgtctcgggc ctcagtgacg tcttgtactc atccatttcc ctcggttcca 300 tgtcaaagac atagtcaaag gctgcagctg aaaccgggat tgnnnggatg tctctagcca 360 tctttgacaa ggtcgggtac ttgagcttgt tctgtt 396 438 257 DNA Arabidopsis thaliana 438 aatgcaaaag agcaaatcgc gctctttctg atacaacttt aagagagttt taacattaac 60 cattcaaaca aattacatta ccttcttctc cttctgaagt agctttgcat cccaaaaccg 120 ttactagttg ttcattcaga ttttatttcc atggagaata atagcaaact ccctctggtt 180 aacaaggtac ttaagcagca gcctgtagca actccctttc agcgcgttcc ctgatccttc 240 tctcgagctc tggccta 257 439 419 DNA Arabidopsis thaliana 439 tctagagcgg ccgccctttt tttttttttt tttttttttt tacacaaaaa catcatataa 60 tccttgtcaa tgtccgagaa aagatgatac aaacatagct aggacactgt ttttcgctac 120 ttccataagc ctcttattct agataaaaca acattgctat cagagccact acacctataa 180 taacatccca tcgtgccttg ttcactgatt tgatcgagta taaacccacg aagcagctcg 240 acaatgattc cgtggcgtct tttcctttct tcttctgtga tggtctttcc tctaacagtg 300 atgacatttg tttgtctatc atgtttggta aaggaagtac ccttatctcc attgatgctg 360 attctagtgt tggcacttcg tttggtgtgt tccctgtcat caccgcttca tcgagattg 419 440 312 DNA Arabidopsis thaliana 440 cctctagagc ggccgccctt tttttttttt tttttttttt ttagattaaa tactgtaaaa 60 tcttttagta cgactgtgta agctctgaaa acaaaaatta ttgtataatt tcagacaata 120 atttcagatc aacgttaact actttttgtt cttttactct tcatctgatc ctgactcttc 180 agaactcgat tccttgttta ctttcttctt tgaccctctc ttcttatctt cctcgtcctc 240 actgtattcg ctttcgtaat cctcctcttc aatctcatca tcctcttcct ctaatccttc 300 ttctgcattc tc 312 441 375 DNA Arabidopsis thaliana 441 gcttctgagc gtttccctta actcgcaaat ctgtactaca taacctacac aatttttcct 60 aaactaagaa cataaagaga gaagtttggt cagatctttg gccggatcat acatggtgtg 120 atcatgttgg ctccaaaagt cggtccaata gcagcagaag aaaacatcag ctggaattaa 180 caatgtttct gcctcttccc attcagagta aaaccttttt taagttagtg ggactgtgct 240 tcgagaagga tgtttgtggc ggcgttgaca tcattcctgg cgtgcacaag cgcctgtctc 300 gctgcgtttc tgtcgaatcc cattgatacc aatgtagtta tggcttcctc agatggctcc 360 acacttgagg gcaac 375 442 289 DNA Arabidopsis thaliana misc_feature (1)...(289) n = A,T,C or G 442 tttttttttt tttatttttc aaagagaata agtatctgca caaaataaga aagaatgttt 60 tttaaacaca aattaatgat aananaaaaa aacagaatct catccacatg aataacctaa 120 ctctgattga ttttttttgt cccccaacaa aacaaaaaaa aatatgatcc aacccgccgg 180 tttgaaaata aaattcccac atctcagttg tgtctccggt ttggctaaac caaacccatt 240 ttatcggcaa agggttttca tcttctacta caaaagctac ctttgattt 289 443 405 DNA Arabidopsis thaliana 443 cctttttttt ttttttttta ttattaatat gattgcattg atatgttaca gatcaaaact 60 tgattagtct tttacaattt atgttacaca atatgtaatc acgagtacta ttatacaagc 120 gtgtatgtgt caggttaatt atacacatat cacatatgta agaattatgg ctccttcagc 180 cttgaaagaa aggtacattg tgatcaatct cacgaggccg gacgcaatct gatttcatcc 240 atccgattct ccgtttcaca ttgtcgtaca cgatcaagtg tccacgcatc gagatatctc 300 caagaataat agtggaacca tcatgaacac tgcttccatc taatatccca agacagacat 360 ttcctttgtt gctgatgatc aagtaatcct cgggttgaat caaaa 405 444 421 DNA Arabidopsis thaliana 444 ctctagagcg gccgcccttt tttttttttt tttgcacgca aagatcaaac cccttatgac 60 atctgagctt atgaggcaaa cgtacacgag tattgtctag ggttttcaga aaaaaagagg 120 aaaactcata ttccgagtcc acagcttctg ggctacatgc agactcgtct ttgtttgaca 180 aaacacatcc gtttgacgct actagacaac atgtacattc gaagttgtga atcttccgat 240 taagcttagg aatcacgata aattgattct accgattaag cttaggaatc acgataaatt 300 gattgagcca tccacttcag atgcagctga agcttgcccg ttttggattc gtctaatggg 360 taccagtctt tgtactcctc ttccattata acccttgtca acgtgaggat acatctccca 420 a 421 445 449 DNA Arabidopsis thaliana 445 ttttttttta acaataaata gcgagaactt gctaaaatgc gctcacaaga cacaaagtgg 60 ggttaacact aaagagataa tgaaataatt gtccgacaaa agacaatctc acaatagtat 120 tgctcatgtg ataccacatg ttatgaatta gaatacatca tcatgcgtca ttatcatgac 180 aaataaagct aaaggcttga agcttcttcg gtgcatttta aggtaaattt acgagttggt 240 tttactatca cacgccgttt tttactaaat cgaaccttgt acgtggtggg attctcagcc 300 gcttgttaag cctctgcttt gcctctttgg ctgctccgtc aagtttctca tcgttgtctt 360 ctccataaga tttattccta acacttctct ccgagaagga gacatgggcc tggtggctct 420 catgattggt agtgtaaaga gagaacgat 449 446 135 DNA Arabidopsis thaliana 446 gctaacgaat caggtttaga ttacaacaat tcttgttcaa gtaaagatac agaagagtga 60 tgaactttac tgtctcagaa agtgacaaaa aaatttgtat cggggagtct tttgacatca 120 gttgatcttt ggctt 135 447 426 DNA Arabidopsis thaliana 447 cctctagagc ggccgccctt tttttttttt ttttttatcg aacaagtagc atagatatct 60 caacatgaaa atctagtaat acatgtaaag aaagaaggtt aatgatattc cgcatgttca 120 tagataggac tcgaatcttt ctttaccaca agaggggttt acaatgatac aatgatcatg 180 tcctagaaga gaaggatcag atgggttggt ctttgggaac gatctgatcc ttgatccaca 240 tgtagatagg gattaacaca aaccaggcag ctgctagagt tcccaggagg aagcgtccca 300 agaaggagaa ggggttgttg acaggcttct ctacgtcctc ttcctttgga ccaagctgga 360 gaggagagtc accggaggca ggtttaacac cagtgacaga acatcccatg ataaggccgt 420 gcctgc 426 448 394 DNA Arabidopsis thaliana misc_feature (1)...(394) n = A,T,C or G 448 tttttttaaa agaaaccatt tagagtattg gatcaacaac catggatttt acattgtggc 60 cagaacattt attgtcaatg gaattgttta agcaagacat gactttgatc acacagcata 120 ggcgttttat acgtcttttg tttctccctc tcacacacac cggaatggta aagtttatag 180 acaacaaaag tttatctatc actggaacct tacaactata caagaaatgt cgtctgtgct 240 ttgcttagag actgcttctt ctatcaactc cttggctgcc gcttgtggat cttttatgct 300 nnngatcaaa tccaccgctt cttggttcga catcaccttc caaactccat cacttgcgaa 360 aaggataaac tcagtctcat gatcgatatt ctcg 394 449 413 DNA Arabidopsis thaliana 449 ggccgccctt tttttttttt tttttttttt tttacgaaat tgcaatgtta ttaagattgg 60 aatcacatca atggaatatc ttcatcctcg tgcccatttc tcaattactg agcaataaaa 120 aaaaacatct actggataat ttgttctcca taaaaaaaaa gtcaaacatt tctaattaca 180 atttatacgt cggtccattt ttctcaaaat gactaaattg accctactcg gcgatcgtgc 240 tcaaattagc cgtgaatcgc ctcttccctt taccgcaacc tcttccgcca ccaccgtttg 300 tcttaactcc ggcaatgttt ttcttttggt aagttttttc cgatgtcgtt acatcgtcgt 360 cgccggaaac ccaaccgacg ccaccgctct tggtcaacgc cgaactagct ttc 413 450 424 DNA Arabidopsis thaliana 450 atcctctaga gcggccgccc tttttttttt ttttttggag tttaaagata caaaagttat 60 aaactaatta tacaaactgt attattcttt tcttactcaa gacacagaac taccttctta 120 ttattactgc atattacaaa aataataaca ataataatgt tacaaaatct catatgtttt 180 ctttatcgcc tttgtcccat agcaaccaca gggagagtca ctttatgccc tcggcttcct 240 ttcaatgtaa cctgtccgaa gctataagct ccagtcactg atctcactgt tagagtcacc 300 gaaaaggttc tagaagcgcc cgctcttact gtcattgcag gaggactcac ttcgatggcg 360 attgctggct ccatcctcga tgtgattgtg tatgtttctt cttcttccgc aacattcgtc 420 actc 424 451 288 DNA Arabidopsis thaliana misc_feature (1)...(288) n = A,T,C or G 451 tttttttttt tttttttttt tttttttttt ttcatgtgag tttatttttc aattggggtt 60 aagctctaaa ttttaaagct tcatttggag gaaacaatga acagactcac ctgatatntc 120 ttttggtcag attgaccttt attatgtgct aagacaaaaa aacgcaataa caacataaca 180 agcttcgcac gtaattctag atcttctctt tttgttttag gccctttgct ccacgtaaga 240 tcccgagagt cctgaggttc caagaacagt aacctttccc cattcaga 288 452 208 DNA Arabidopsis thaliana 452 aaacaaacaa tgtctgtctc tgctgttgtt ttcaccaaat gtgttcttct tctaccttcc 60 acgaggatga acaagctgcg aaaacaccgc actagtagtc gcgtcttccg catcatcatc 120 agtcccggtc cccgaattta ctcctcctct atcgattata ctcatactgt tatcaaacgg 180 ttccattggc gccattggaa tccctgga 208 453 423 DNA Arabidopsis thaliana 453 cctctagagc ggccgccctt tttttttttt tttttttaaa caatgccgtt acaatcggat 60 ggtttcattc attctttagt tttctgttat tatttactta tattgttcaa ataaaccaat 120 ttaccaagaa accataacca aataaccgag gtaaatcaaa gttctgacct gatcggtttg 180 gtttacgaga gtgaaccgag tttacttact tacttcctgg agacataagc aaagtattgt 240 gccatgggaa ctacaaaggc aattacaagt aatcctccaa cgacaagact gaactgtcct 300 cgcttctcat cggtttcttc tttcgtcttg aaatttgatt ctctcttgct atcctttacg 360 gttggacccc cgggatctgg ttgaccgtct atagctgcaa ccaacctttt cgcactgcta 420 tat 423 454 408 DNA Arabidopsis thaliana 454 cctttttttt ttttttttta agctcaagtg tattatcgta tactttacac aacccaacca 60 gaatagtaac aaagaacact aactcgtctt cacaactgtc ttttatatgt aatgtatgtg 120 tttggaaaag aaaaaaagta tgtatatcgc ttggaaattg cacatcccgt caaagaagtg 180 gctgctgatc cactccactc atgcctctag tttagggcag attggggagc ttggattcga 240 catagaacat atatctgcta gacaaggttg cttggtggct acatcctcct caaaggccgg 300 aggtgcttgc ccgtatatca tctcgcagct catgtcttca taatttgggt tcatggtgag 360 tgggaggcca aactcattgg tgaagaaatc ttgggttgga atcttgca 408 455 414 DNA Arabidopsis thaliana 455 ggccgccctt tttttttttt tttttttttt tcaacctctt aaaacatcta gaatcagaaa 60 actattcatt gaaattcata cagagaatat cagttatcac ttatcagcta ctaaatatca 120 taggaaacac agtaacacac aatagcgtag agattataca ataaatgggc ttcaaaagat 180 cagcccaaaa agaaactaag cccaataaat aatttctaac taacgtgtgg actcggtgag 240 tcatcatcta tctcatctcg gtgatggcgg tgatctcatc gttattattc cctccggtgt 300 taacccgacg aacaatcacg atctgctcca actcatcgaa atcaatggcg gctaaaaaac 360 aaatcggtga agaaacctcg aagcgggtct ttgtatgcgg cggtggagta atcg 414 456 399 DNA Arabidopsis thaliana 456 tttttcggca aaaatgggta aaagaaatta gagaaaactg agtagttcaa acttgtctaa 60 caattaaatc tcttgcaaga acagcaaagg catatcttaa ttgcatagga aacgagcttt 120 gacctaacct tagtcgtgga gaaattgaaa ctgtcttaaa cacagtagat ccaaacgaac 180 ctaattgtcg agaacgcaca catcgccgga aaactaaaga tatagagaga gaaacgcata 240 tcgttgactc tcctcctttt tcactctctt catttattct tcccctcatc atcatcatca 300 tcttcttctt taaccaaaaa cacaacttac aagaaaactg ttgaatcttt gtatttattt 360 acatctcctt tgacctttaa taagaatctg agtggttgg 399 457 163 DNA Arabidopsis thaliana 457 ctgaaggaag ttttttctgt ggctttatat atgtatcgag tgatttggat ccctctgtac 60 aaatattcaa ccgttttaga attgcccacg gaacactaca aggacaagaa agaacataac 120 gaccaaaaac gaataagtcc ctagggtgag agcttaaaga ccg 163 458 324 DNA Arabidopsis thaliana misc_feature (1)...(324) n = A,T,C or G 458 caaccgctta ccacgaaatg atatgtggct tttgaacatt tggtcaaaag gacgaaaaaa 60 taaactactt ttagtctctt ctgctaccta cgaacatata tcaatcctga cgaaacctat 120 cagcaaaaca aaaagggtag gatgatctct gatatatgct cctgttatgg ccctaagatt 180 catcatctat tccattcata gtctcctcca tagttaggcg annnttgttc acacggcttg 240 tctcttctgg tttgatggag tttgcaaatg catgccagcc tataaggtaa ggcaagacaa 300 aattgaatgc agagataaga acag 324 459 394 DNA Arabidopsis thaliana 459 tttttttcta gtaacaccaa atattagctt ggaaacttca acaaacaaga cacaacactg 60 taattatctc aacgccatgg accttcttca cggcctggtt ctttattaat acaatagtaa 120 agtaatggtt gctactactt ggtatctatt ttcatatcat aacttatttt cactttgata 180 ctttttgaaa aagaggagtt tatgtttact gattccctga aatgggagca tcacggcctc 240 tcttgaaatc gtcccatcct ctgacccagg gctgtccagc cgctgcacga gtctctggcg 300 ctgcatgctt gttcagattc ttcatgactt tctcgtgtaa cgccgagaac accggatttg 360 aactcactgc ttccggaggc tgttcctgtt cagt 394 460 424 DNA Arabidopsis thaliana 460 cctctagagc ggccgccctt tttttttttt ttttttttta aattaaaacc tttgaggctt 60 tgactaatta acaataacca tttgattaca ctaataactc aagttgggta aaaatccgcc 120 tgcttgggac tcaatttgac aaaagagagg cttggattcg acaatacaac caactcttaa 180 tactctgaaa ggatcatttt tcataaacaa gactaaacaa aaagagacaa ggaaactcca 240 cattcaatct tatagcactc cggattggct tcagcatcat cgactgaggc agatgcaaga 300 acaagttctg gtgtaggaag tgtgtacgag taattctcgc gtctcgcctt cttcttctcc 360 ctttgcaatc tgaagttttc tctctttctt gctctgtagc tattgggatt ctctggtaca 420 attt 424 461 399 DNA Arabidopsis thaliana misc_feature (1)...(399) n = A,T,C or G 461 tttttttttt tttttataag aagagttata tcacaattag atacatacat acattataca 60 tacatgtaga tgtataacat aannncgggc caccacaaca aaaggccacc gaaactctta 120 acaaaaaaag aaggagaaga gaaaactccg ttttcgtttg gtagggcaaa agcctagttt 180 taacggaaat tagcggtgct cttgtaagtc ttaccgccgc tccagttagc cggagcaacg 240 ttccaagcat agatggtttc accggtggtg taagaagtga cccggaaaga gagagattga 300 ccatagagag aggaaaaagn ttggtaagag gctccccaat tgtggctcat gcttatccaa 360 ttcgtccggc tacctttaac ggccatgctc ttgatgtct 399 462 159 DNA Arabidopsis thaliana 462 tacctcttta gccaaacaac acccccaaac aattactctt atagagagag tagaagaaga 60 cgacgcttac cccaaaactc gaatccctag gaggttttgg taatatgaat tgagaagtcc 120 acgcacgtgt gtatctctat taccgtcaga ttttggttt 159 463 192 DNA Arabidopsis thaliana 463 tcgaattcgc ggccgctaca tgaacatata gcaaaagatc atgcaatgag tactatatct 60 cttaggctac actcttacac acgctatgtc acaagcataa tataacaaca ttctagtgtt 120 caagaaccct aactctgaac ttaatccact cgtgttggcg agagactatc aacagaaaag 180 ccctacataa at 192 464 410 DNA Arabidopsis thaliana 464 ccgccgacta gtgagctcgt cgacccacgc gtccgtgaac ctgtttctgg atctcttctt 60 tacggaaaca atattatttc cggtgccatt attcctactt ctgcagctat tggattgcat 120 ttttacccaa tctgggaagc tgcatccgtt gatgaatggc tatacaatgg cggtccttat 180 gaactaattg ttctacactt tttacttggt gtagcttgtt atatgggtcg tgagtgggaa 240 cttagtttcc gtctgggtat gcgtccttgg attgctgttg catattcagc tcctgttgca 300 gctgcgactg ctgttttctt gatctatcca attggtcagg gaagtttttc tgatggtatg 360 cctctaggaa tctctggtac tttcaacttt atgattgtat tccaggctga 410 465 539 DNA Arabidopsis thaliana 465 atctcaactc gattgcttga atattaaaca cgagactact aaagcttcac aagaataaca 60 ttgtttctcc ttatgtttgt aaacaaagat acagagagat taaagttcag aagggggggg 120 agagagagag tatacaatca gatctttatt catattcata gatttctcta tcagccaact 180 ttctcatgac acgtggcagt ttaacgaaca agagctccat gatcatggaa gggaagcttt 240 gacttctttt ctgtcaggtc caaatgactc ggtgccaaat cccttcacat acacattggt 300 aaagagctca gaaggctctg gcattgggca atccttagct ttggcaatgg cgtcatctac 360 ttcttttcta atttccttct ccatatcctt aagctctttc tcggttgcta ggtcatgaga 420 tagtaccagc ttctttattc tctcaattgg atcccgttcc tgcctcacac cagatatctc 480 atctcgggta cggtatgtgc tcccaggatc agacatggag tgaccgtggt acctgtatg 539 466 116 DNA Arabidopsis thaliana 466 ggatcctcta gagcggccgc cctttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt tttttt 116 467 474 DNA Arabidopsis thaliana 467 cctctagagc ggccgccctt tttttttttt ttttttttta gaacatgaag tgcctttttt 60 tcatatattc tggggttaca aacttattac aaaatctccg ccgaggcaag aagaagaaag 120 atcgaaggaa ttgataaatt tacagagaag tcaagcttct tgagaaattt acacacaaaa 180 gaggctactt ccgacccgat tttaacaagg tgactcacga gctgcaacac cggccttgat 240 gagctcggta atccggtttt ctcttcacag agcttgatcc ttcttccaaa agactaggta 300 cctccattat cttcaaagct agctcttcga agcatccgtt cacgttttct cgggttcttg 360 cgctacattc atgaaacaaa caattgaggt ctttcgctag agccattcct tcttcccggc 420 taaccttcct ttctgattct ctatcaactt tgttgccaac gagcatctta atgc 474 468 479 DNA Arabidopsis thaliana misc_feature (1)...(479) n = A,T,C or G 468 ttttttttgg tttaagatga atctattaag tactgaacta aattcgttga ttgaaacatt 60 aggaaagtga atagatatgt ataatttaga ttaataaaca cacaagggta gactaattca 120 gaaccagaaa gagtgagagt gttagctaca aatgatacga tataaannnn gagagattac 180 aacaaaaacg aggtagagac aaaacgtaga caccagagat cagtggttgg ttacttacca 240 tcttcttttt tcctttgtca ttgtctaatc agtagtaagc atgctgaata tggtggtggt 300 ggtgcgggtg aggatggtaa actggagggg gtggagcagc caccggactg cagtaggtac 360 catatgctgt cggataactg accggagagg tttggtaaga accatgaacc gcctcgggtg 420 agtattggta tggagggctc ctgttgctgt agatggtagg tggggatgtg gtgtatgct 479 469 469 DNA Arabidopsis thaliana 469 tttttttttt ttttttttct tcttaaatat tttgatctat cattgaagat gagggtggtt 60 ttgttcagtc atgatcattc tccggttatg tagttcccat tgttgctgtt gttgaagttg 120 tctaatgatc agaatccgac gcatctccga caatcttagc cggagtatct cttgttctgt 180 cacgagccgg ttattgtcgg aattcactcg ttgaagctgg tgtaaaacta accggagtcg 240 gttcccgagc tcacggtttt ctaaatccaa ccggtttact tgctctcgta agttatcaat 300 gtgactttgt ttacgcattc ttgaccgttt cgctgattcc cggtttgact ccatcctctt 360 cctcttccgc tcgtcggtca tctccggttg gatcattttt ttccggttat ggttattctc 420 tcccgaaccg aaatttgtga tggctgtcaa ttgttttgtg tcgtccgag 469 470 392 DNA Arabidopsis thaliana 470 tggttcttta catatataaa cattttacat tgtattttgt atgtaatgtt ttgttcaaag 60 gttgtatttt tattgtctca aagcccctaa accaaagagt caaaggaaag atctttatta 120 cactgacacc ttatcaaact cagcagaagt cttgtccatg tccttgtcct tggccacaac 180 atctttgtaa cggtaccaat gtgagaccaa caagaaatag gccaagttta gagtcatcat 240 accagcaacc aagaagtaga aatactccaa tcttcccttg tttaaatctt ccggaagcca 300 acttcctcct gaaaatccct ctgtggtatc gtgtaccgcc gataacaaaa aggtgctgag 360 gtaactcgcc aatccgattc cacaataata ca 392 471 112 DNA Arabidopsis thaliana 471 ctatgacgtc gcatgcacgc gtacgtaagc ttggatcctc tagagcggcc gccctttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt tt 112 472 329 DNA Arabidopsis thaliana 472 ttttttaatc cacaatcatt aacttcttac taaagaagag aaattggtac tggaaaacaa 60 acgagacact ttacgtagac gaaaacatac acatggtcat caccatccgt aaactaaaca 120 agaacttaag tacgcacagg aaactacaca agatataact acatggaaag atttaaaccg 180 gattaatatt acatccgtgt ggggaagttt gatttaggtc ttggtcctga atttggattc 240 gtctatctcg actccttcct cctcagcgtg ttccccacca ggcttgtctc cggtgctaag 300 accacctttg cgtcccatct gctgatatc 329 473 218 DNA Arabidopsis thaliana 473 ccgtgtaaaa ccaacctaaa aatccaaggt gttttgtttt ttacattcaa gaaaagcaaa 60 cttacacaga caaagttgtt ttttaacagt catataaatc tctaccagaa gatcaaattg 120 gacagttttt aaaactccaa accaacattc catcacacga gttcttgata acttgaaaga 180 caaatcgaat cctcatgtca cctattcctc ttctcttt 218 474 301 DNA Arabidopsis thaliana 474 aggcaaaact aatatacaca aactaactcg agactacgct tcaagcggct attgcgtcac 60 gtacatattc aacaattacg ttgtcgttta ctcgtgcagt aaatgtttgt ttctcgtcat 120 aatagctcca ctcacctgcc ggacatgtac cattctgcca tacaccactc aacacactgc 180 cttcttctgc atatatataa ctaccattcc catgccgtac atcatgctgc catgcaccta 240 tatacttatc accattcgca tacgtgtatg tgccattgcc atgacgcaag ccatgctccc 300 a 301 475 104 DNA Arabidopsis thaliana 475 ttttttctta caaaaaaaga aaagaaaatt aaaggatctt tagcttcttc atctttttcc 60 caagacttga agctaaagtt ttaaaagatc cttaagatct cgag 104 476 422 DNA Arabidopsis thaliana misc_feature (1)...(422) n = A,T,C or G 476 tttttttttt aaggaacatt tttgggagaa acacaaaaac atatttgcag taacacaaaa 60 agaggtttac aactttattt ggggagaaga gatagataat aataagatcc aatgggtgtt 120 gttactgttc ctgagtctaa taagcaaagt gttgctgcta aaagagcgtt tcgtccaagt 180 tccagtatca gacacactcc tcaatggtac tctttcacta actcatctct tctttcctca 240 aaatgttgct gatctctctg ttgttccagg cctgtctcgg acgttacgag tgacttaacc 300 attgaagtcg gctctgcgac cttttccctg aacctnnccg ctgttccagg cggctcagaa 360 tcgttcgagc ttgctgcaaa gttctgctac ggcgttggcg tccaatataa ctcgtccaac 420 at 422 477 555 DNA Arabidopsis thaliana misc_feature (1)...(555) n = A,T,C or G 477 cctctagagc ggccgccctt tttttttttt tttgattcat gaaaataaat annaaatctt 60 taaacagaca aaactataca gcacactcca taaggttcgt aaagatgtct cattgcaaat 120 ctcaatctca ttgcttcttt acatttacaa gagccgtaat taaacaaaat ttagctacaa 180 agcattttga ctggagagaa ttgtacggtg agacaagcat gatcggatat attgtaattc 240 tccggccaca atcctttctc tgcttcttgt ggaaacaaaa ttgctttatt cactttcaat 300 ccgattgctt catcttctcc ttcttctttc ttactctcca tcacactctc tttgcagttt 360 ccaggttgat ttaccatcgt catgttccaa attttcttaa gttcttcata gtcgnnnnac 420 catttccatc aagatcagct cggacccata gctcttttgt ctcttcgaag ctaagtccat 480 gtggaatacc cgttagattt accttttgaa gtgctaggca aaagtcagag taggttagtg 540 aatcactgtg atttt 555 478 290 DNA Arabidopsis thaliana 478 agaatgcttc ttgtgagaca actatagtgt tacaacattg atgaaaattg agatgggttt 60 ttctatccga cgaaatgtta caacatcaaa tcaatagtag tttctgtaat cattcctctg 120 gtaattctga ttgtagttcg gctgatttaa ttcagcagta agttcagagg acaaggtact 180 agtcgtcttc atagctcttc cttcaggttc cttgagatac atccggtcat ctaagtacgc 240 tgtgatttcg gctatgatca caagtagatc cgacgtgtcc ttcttcgccc 290 479 343 DNA Arabidopsis thaliana 479 tttttttgta taacttcatt attcatcaat actcaaaaga ggcaaaagtc tcacaggttc 60 aataatagga cgcaagatca ggaacaaata caagaaaaac cgcattataa cacatctaca 120 ttggtcggaa aatatatgta agaaaaaagc aaacaaaatg aataaaatca gtaagggttg 180 ttgtagtaat aacccatcgg cgacggtccc atcccgttaa ccggcggcat accataaggc 240 attgcggttt gggctgtatt catcttagcc aaactagctt gacctctcat tccttcttgc 300 tgatattgct gccataattg ctgctcttga gtcaatagat att 343 480 297 DNA Arabidopsis thaliana misc_feature (1)...(297) n = A,T,C or G 480 gaacaaagaa gcatttatca acaaagcatt cttgaataaa gttgacttgt ttcagtgtat 60 atagcaagnn nagtcgtgct aagtgctaac tacatctaca tgggtataaa accaacagaa 120 catctctaag ttggatgcta gatgctttga gctatgctag agttctgttt tttttgtgtg 180 gtttgtgctc gagtctgcgt tgtgaactct caggttttca tcttaatctt cgtcttgtga 240 atcaaaagga acttcatgcc gaggtctgtt gtacttctca cgcaattgtt tgacagg 297 481 441 DNA Arabidopsis thaliana 481 tctagagcgg ccgccctttt tttttttttt tttttttttt taataacaaa caccaaattg 60 cgttgcgaat tgtaaatata cacagtagac gtagagattt ctgcagaaac gtctattaga 120 agaaaaacaa tcagcaataa atcaaagaag aggttccttg ttggtcacga aattacagaa 180 gaaaatcaaa gctcgggctg catttgctcg cactcttctc gaatcgactg gaaaagctgg 240 gtcgagaggt aacgttcccc gaagctcggg aacacaacgg ctatgagttt cccggcattt 300 tcaggtctct ttgcaacctg gattgcagca gcagcagcag ctccagaaga tataccaacc 360 aacaagcctt cctggagagc tagttgcttc gaggtttcaa tagcttcctc actggaaatc 420 gctatgtatt catctacaat a 441 482 346 DNA Arabidopsis thaliana misc_feature (1)...(346) n = A,T,C or G 482 gttcgaatta ttctaagcat ttactcgaaa tacatactta caaaacccta aacagcctca 60 ctacataaat gaggaacaaa agaatctcca aggnnnttaa cccctaacat gaataattat 120 ttcttatata atctgccatt taaaatttca tgcagactac atatatatca aacaagtttt 180 agtagatcgt cgtgtaaaaa tgatacagta cagatccggg tagtccctcc ggtttatcgg 240 tttttttatc caatcaaacc ggaatgttat cgatggagta tgcgtcaaag tcgaattcgc 300 catcaaccgg tgcaatccct tcctgcttaa gaagtgcgct cataag 346 483 438 DNA Arabidopsis thaliana 483 cgcggccgct tcatctctcc aattcgcttg ctccgacgat atctccacca atgtcgccgc 60 cgctgagcgg ttcgtctctc tctcttcctc cctccctctc tctaattatc aatctctccc 120 atcttcctcc tccttcaaat ttccatatgc gtataagctt ctcgagcaat ttattgtgat 180 cacggacctt tggaatcgaa ctattcaatt tcaagctctg atatagattc ccccgttcga 240 atccgatttc agtatctgag aatggaattg tttacatttt acgcagatta gtcagagaag 300 ctcacgctaa aggagctaat atcattctta ttcaggaact ttttgaagga tattacttct 360 gtcaagcaca aagagaagac ttctttaagc gagccaagcc ttacaagaac catcctacca 420 ttgcaaggat gcagaagc 438 484 310 DNA Arabidopsis thaliana misc_feature (1)...(310) n = A,T,C or G 484 aaaacccctt agttaagccc tctctatgtt ggaggaggtg aaggaatgac tgantcagta 60 tgagaagagt tagctccgtg tggtgtccaa ctataaagaa tcattcccaa tacaagtatg 120 attgttcctc ccatgaannc ttttggtagt gatgatgcaa ctccaaggta cggtaatggc 180 attgtgaaca gaaacactgc aattggcact gagactgttg atgcaagaca tgaaaccacc 240 gcggatgaaa tcttgaggag tcttaaaaga gcaatgttat agccaatgtt cattatcaca 300 aacaacagag 310 485 454 DNA Arabidopsis thaliana misc_feature (1)...(454) n = A,T,C or G 485 tttttttttt ttttttgaag aacgtatttt tttaaagaac taattaagga tacacatatt 60 gagcaaagga gacaacatct tatcttttcc aagctttctc aaattttttt gaaggaagaa 120 aataagaaac ctccttaaaa catatcccac aattgatatt ttgagatttc tgggaggcac 180 aatgagtacc tgtggaagaa tttacttgag ctggaaaaaa agactgtata ccgagagaat 240 gaggaanaaa caaaactctt agatttatga tcacaagtat tgttcatgta tccttgccct 300 gttctcttcc caccataatc tcgcgtgcat ctccccgaat ctctctcggc tgaatctgac 360 tcttcgaagc tctcttttcc cacctggtaa aactttaatg gtgatataaa cgccaggctc 420 atcttgctcc acccattcgt tgtcaacatc actc 454 486 344 DNA Arabidopsis thaliana misc_feature (1)...(344) n = A,T,C or G 486 ggatcctcta gagcggccgc cctttttttt ttttttttta ctaaaaagct ttgaacttat 60 ttcataaaca tcttcacaaa tattgaatca tattcttttt tcgctgtata ataagagttg 120 ttatagaacc aaagttgtaa agaaaaaaaa atctagattc tgtaaaatng gaactcacgg 180 aaccagataa agaaatttca ccggcggtct tacgtccccg gcgggatata tattnnntct 240 cttcctcctt tcttccccgt atcgccaaca caagttggat gatttgattc caaaatgtga 300 ggcattggaa caaaaaaatt aaaaaagtgg agaaaaacct gtgt 344 487 332 DNA Arabidopsis thaliana 487 tttttttttg attcgtatgt tataacttgt aatataaagt gaacattcag atagaaacca 60 acacattatt ctgtttcttt ttggaggttc tataattgga aggagaaaag ttaaaacaga 120 caaagattcc ggcaaagaag atttgatacc ggcgataatc atatgatgac ttaagaagct 180 ttcatgtcat ccataccgac gctagccaga aacttatgat tatcatgaag aaacggacca 240 aactcagcac aaaacctttc catgtcggct tggatgttac cagaaccaga tatgacatcc 300 atgaacttct tcctgtccgg agctagcttt aa 332 488 109 DNA Arabidopsis thaliana 488 aagacttaca taaggattag tttcacaagc taaaatgcac aatacaaaaa agactcaaag 60 atgcatacta aaaaagtaaa aagacaaacc gctcaagatt cataggctt 109 489 288 DNA Arabidopsis thaliana 489 ttttttttaa agcatcaaaa atttatctat tcaaagtagt tcagacgaaa taaacttcat 60 aaaacaaaag agcaaacatc tgagatacat atttcaatct aaatgaagat aaaacattaa 120 actcattgat acgagattgt aacgcacagg gcaaaaggaa aatccttaac gattagcctt 180 ggcaactctt tcaatctcat ccttcttctt gatggcatag ctgttggaag agcccttggc 240 tgcgttgatc aattcatcag caaggcactc agctatagtc ttgatgtt 288 490 132 DNA Arabidopsis thaliana 490 gtcttgttgt agtttggaat actttaaaac tgggattttt gccttcttga ctcttaaaaa 60 actcataagc ttatgcatct tttacatacg agtagagact cttttctttt aagtactttt 120 tacaatcttc tc 132 491 250 DNA Arabidopsis thaliana 491 ttactttttt tgacaaggct ctgtttcaac tttcaagtaa tgagaaacaa cacaagagaa 60 tgtgtttgga agacgaattc tcagtttcta acatgcaatt tcttctacac tctcaagtat 120 ttaaccctaa aacatataaa accgatgaac taaaaataat ttgttcaaca tctcaagact 180 ggggtcacag aagaacactc tacataatct gaccgttaat gcgactgatg atggtatctt 240 cagtagaatg 250 492 398 DNA Arabidopsis thaliana 492 ttttcagaca aacacaattt atttgacttt aaaccatcaa agtatcctaa aggaccaaca 60 aatctaaaca aaaactaaac ttatcttgga aaaaagcaaa taaagccaca caaataaaat 120 tcccaagtct cagagaacag agtcatagcc attgatctaa tgtacaacac ccaaaagaag 180 agaagattga ttgtttgggc taagaaaaca gaaagagcgt aaccaacccc gtagtagaga 240 gtttcagata accttcttct tctcgaaaaa cgtcttcaag tgcaaaaact gcatccctgc 300 aactcctatg cagacgaaaa acgagagaac actcaaccac gccatttttg tgttagtgga 360 ccggttcaag tcttgcatct cttcttccct atctctaa 398 493 158 DNA Arabidopsis thaliana 493 cctctagagc ggccgccctt tttttttttt tttttttttt aagaaaaata aaaagttaag 60 atttgatttt gtacgacatt caaagaaaga aagaaactac ctcatctcta aaacaaagta 120 ttgtcagaaa actgaacggt ggtgatttac ttaaacaa 158 494 278 DNA Arabidopsis thaliana 494 tttttttttt ttttaacacc aagtatctca atagtgttat aacacaagct tgaaacaaac 60 agaccaaacc agagtatgga gagtgaaaat acaaagacat gtttcaacac aaatcaaatc 120 caacatacaa agacatgttt cattattgta cataacattg ataagagaga aatggagagt 180 gaaaatggct catatagatc gatttcctac tctcgctctt tcctgtgatg acgtttcctg 240 ctcttcttct cagaccgctt agaagaacca cgtccaac 278 495 146 DNA Arabidopsis thaliana 495 aactccaaaa aaccggtgga agaactacta caagcaaatt aaccaacaac aaatctaaca 60 tgtaccttga ataatcatta cacaacaaca ttgccttgcc tgaattaacc ttaatcctgg 120 agaaatcaaa atcccagagg aactac 146 496 382 DNA Arabidopsis thaliana 496 ttttaaaata aatgttctca agtaaacgtc ttgagagttt tattcattaa tatatatgta 60 ttcttgtagc cacatattgg gtaaacaatt ctcacataga gctaacaaag tcaacgatat 120 ccaccacatc atggagcaga gagttggagt tcacaactct acagttcaat ctgatttgtc 180 cttgagttcc tgtagttggt gtaatgtttc ccatcctatt cattgcctcc acaaatgcat 240 tgaagaatgt ttgtgtgcca tcagcatatg ctctcaccaa ggggattgtg tcagtggcat 300 tggggctaga gaacaactct tggtcgctct ggataagacc ttttcgctct ttgagattca 360 cgtagtattt gttgtcgaaa ac 382 497 351 DNA Arabidopsis thaliana 497 tttttacgaa aactttttca agtatataag atcctaaatg ttagtgtaca taagggcgaa 60 agaagattac gagccaaatc cctcagagtc tttttatggc ttatgaacag gaaagaatat 120 tatcggtcga gtcaaatcat ggaacctttc atctttagga agatcaatgg tccgttgata 180 tctctctctc tctatgcttt ttctgggaat accttaagga ggaaatcgat gaatcgttta 240 gagtaaagtg taggctcgat ggctgaaatt gtcattggat catatttcat agatttgcaa 300 gtatgttcca ctttcttctt catgttgtac tcttggagga tgtcaatgat g 351 498 271 DNA Arabidopsis thaliana 498 ttttttaatt gtaactcatt tattaattca gataagaaat caacacaaaa tcccaagttt 60 gtcattttcg tgagcaaacc agacacaata cattgaccga ccagaccctc ccacagttct 120 taaccctaaa ccaacacaag actctggttc aaccaaaact cttacacaca cagctcatta 180 catacaaaaa acaatcaacg acactttgaa tcaatcaaat gatattccca cccccaacaa 240 acaaaaacat taaacaaaca gacaattctg a 271 499 172 DNA Arabidopsis thaliana 499 cttttgctca agaggtgaca atacccagac ttaacaagag tggtatctat tgactcatcc 60 ttcgcttgag ctttctaccc cattgttgtt gcctaggtcc tcggaagaag ctttaactgc 120 ctctgcacac atgagagcag ctgcagcttt ctggatcgct agatctgctt tg 172 500 132 DNA Arabidopsis thaliana 500 tgcaaattta tgagattttg aggacaatca atgtgcctaa atgatacaac agtggagaac 60 aaaaatagta ttctgagtaa tcttccattg taaactcatc atcgacgttt gtataaacaa 120 gcttttaact ca 132 501 110 DNA Arabidopsis thaliana 501 ctctcataca aagatattga aattcagaaa ttatttatga aaaactatat agagaattca 60 aattacgtaa aacaaaaaga aaaagcagcg ggaagagacg tgagcttatt 110 502 460 DNA Arabidopsis thaliana misc_feature (1)...(460) n = A,T,C or G 502 atgaccgtgc tgttgtggtg ctcatgaact ggtgaagctc ttgtttctcg tatatctcta 60 gggagaagtc tctcagcgtg tgcgtcgttg ttgttgcaat tgacgatgaa ctaccggttg 120 ttacgcctga gcttgagctc ggagccataa ccgacgtcgc tcttgataaa ttcgaaccgc 180 taacgtctga aacggataca aagccgctgc ttggaacaac ttgtaaagga ggtggtctag 240 ccatcgtgga agcctgttga acagcggcga cgtaagacga cggcgaacng cggcggcggg 300 aaaagctaat aactgaggct gattcgacgg accagcgatt tgtggaatca agaagaaagc 360 tccgaccgtc ggaatcattg cgtttgatgg aatagcccac atcggataca ttccttgcgg 420 cagaagttgc tgagccacag tggatgatgc cagagcttgc 460 503 118 DNA Arabidopsis thaliana 503 ttctgataaa caaaaaccca aatcatgcct gctggctcaa ttcaacaaca aaagaagcaa 60 actaagcgta aaacagaatt caaccacatc ataagagggt tgaagatacg caacgcag 118 504 355 DNA Arabidopsis thaliana 504 tttttttttt ttttttcgga cgcgtgggtc gacccgggaa ttccggaccg gtacctgcag 60 gcgtaccagc tttccctata gtgagtcgta ttagagcttg gcgtaatcat ggtcatagct 120 gtttcctgtg tgaaattgtt atccgctcac aattccacac aacatacgag ccggaagcat 180 aaagtgtaaa gcctggggtg cctaatgagt gagctaactc acattaattg cgttgcgctc 240 actgcccgct ttccagtcgg gaaacctgtc gtgccagctg cattaatgaa tcggccaacg 300 cgcggggaga ggcggtttgc gtattgggcg ccagggtggt ttttcttttc accag 355 505 140 DNA Arabidopsis thaliana 505 aagctgatta agtcgtaaaa caacgatttc ttggtagata tgagtctatg tagtcatgat 60 tattacaaat ataaaaacaa atccaatgca taacaataaa acaacgcaaa agaagattct 120 gcttgatctt ctttcctgtc 140 506 517 DNA Arabidopsis thaliana misc_feature (1)...(517) n = A,T,C or G 506 tctagagcgg ccgccctttt tttttttttt tttttaacag agagtttata ctttatagcc 60 acttcgtctc caaatctggt atcgaacttt ttacgtgaca ctaagaaaca aaacattaaa 120 aatgagtaga ttcagcaaca attaatttaa cactttggtt tttaattcgg aaaanaacaa 180 ggagctagct actcgtctgc agcagcagaa gaatggtgag ggaaggttgc ccagacgtct 240 tgccacgtca ttttcccctc tgagactgag ctcacaacgg aagctgcctc cttcaaggtg 300 actcggactt gatctttgct gtctctttct ctgattgtca ctgatgtatc cgagtccact 360 gttattgcaa atggcactcc aagctcatcg gttctcgcat atctcttccc tatcgatgta 420 ccagtgatgt caatcttatg ggagataccg acagaggcga gttccttgga aataactttg 480 gctacttcct cgaattgttg gttctgaaca agcggga 517 507 385 DNA Arabidopsis thaliana misc_feature (1)...(385) n = A,T,C or G 507 aaacccttaa atctccggat ttcgattccc gaggctcgaa aaaaccctaa atctcttctc 60 cgttcactca tccaaccgaa gatgcgnnag attcttcaca tccagggtgg tcaatgcggt 120 aaccagatcg gcgccaagtt ctgggaagtg gtttgcgccg agcacggcat cgatccaacc 180 ggaaggtaca ccggagactc agatctgcaa cttgagcgca tcaacgttta ctacaatgaa 240 gcgagttgcg gtagattcgt tcctcgtgca gtgctcatgg atttggagcc tgggactatg 300 gatagtctca gatctggacc gtacggtcag acctttcgac ctgataactt cgtctttggc 360 caatccggtg ctggtaacaa ctggg 385 508 114 DNA Arabidopsis thaliana 508 tttttttttt ttttgaataa aaaggttcac ccttcacttt ataagttata tttcggtaat 60 gaagatccca aaagggaatt tcaaatacaa agtaaactca aaactcagaa agaa 114 509 451 DNA Arabidopsis thaliana 509 gggcttcagg ttccgggtca ggttggggta cgattcgggc ttgctttttg gtccgacggt 60 agacgtaatc cacaagcttc tcagcgtcca ttgtcccagt cactattact tttcccgtgg 120 tgtgctctgt cacagttgtt tggacccctc tcattttgag aatcttcttc ttgagctggt 180 cagcacaagc ttggcagtgc atgttaacgc tgagctcgac ggtggtgagg ccgccggaga 240 cctgagaggt tatgattggt ggcagaggct ctccctcagc tgccggaagc ggcgagagga 300 ctttggccat tcttttagtc ttcttcttga ttttgttgca cactgcttgc ggatccaaca 360 ctccctttat cgtcacttgg ttctcattca tatccatcac cacttcttcc acacctctaa 420 tttttagaat agatctttca atcttcttag c 451 510 363 DNA Arabidopsis thaliana misc_feature (1)...(363) n = A,T,C or G 510 tttttttttt ttttttatgc aaaagctaaa ctgctaaagt tattaataaa tctgaagaaa 60 agagtttgat aaatctacga aaatccaaag cctctagagc gttgaccaga tagttagaga 120 ctaaagtcaa cgatcaggtt caaaaacaca aaagcaaann annaaaaaag agagacataa 180 atcgaaggga tgagttatgt aagtctagaa tttctggatg acgacggcat tagctatacc 240 agcttgctcg atggtttggt ccaattctgt caattgttta ggagggaacc ccatggttag 300 caactggtac tctttggagc caccgggtct agaagcgtcg ataaacccaa gtacatctct 360 gac 363 511 204 DNA Arabidopsis thaliana 511 tttttttttt ttttcagcaa aaccatgtgt agattagaac accaaaatgt ttaacattcg 60 gcttcattgg caaacattat tatttcccag aaatgaaaaa tcctcaaaca acagatctct 120 tacaagtaaa aaggaaacaa cagtttaggt tcaaagagcg taagacactg agtgatagca 180 tcatcatagt ctcttcaagc tttt 204 512 291 DNA Arabidopsis thaliana misc_feature (1)...(291) n = A,T,C or G 512 ccattgctct taccacagag agtagctcta atgtgaagag atcattcgtt gtcatgtctc 60 cggtgngatt tgatccatta gccggaggag aagagtcttg ttttgtcggc ttgagtatga 120 cgaatctaca gacaggacat tgtcctttgg tctttaacca tggaactata cattcctcgt 180 gaaacatgtg tttgcaagga gtgagcatca ctgtttcctt gggctcgaag tcttctaaac 240 acacggagca tcttttgtcg tcttcttcac ctgagagatt ttgagtgttt c 291 513 322 DNA Arabidopsis thaliana 513 actaatcttc aatgagttca actaaacaat ggaaacttta gttaattata ttgaattaat 60 caaataattt atggatacga tagaagccga attatatgta gcaaatgatg tagtatatca 120 acctttatga tgtatatatg aatgcttccg atgaacccta aacattgaca aacgacagtt 180 ggatttcttc taacgttaat cttcgagtct ccggcaccaa gcaccatgtg aatacaattg 240 ttgctccaca gattatagcg gatattataa aagtcccgct tgggctccaa accaacataa 300 aattgaaagc atagttggcg at 322 514 420 DNA Arabidopsis thaliana 514 tttttttttt ttttcagtat aattagaaca ttaatgtctt ttcacgtgga actgctggag 60 ggagtttata agtaaaatgt tgtacctttg taatgaaaca acgtgcatta ctaatgacaa 120 atctatgaca atcaaatcag ctgagtctca tatctcaccg tcccagagtt cttcaagact 180 cttatatgga ctcgtctcat gaacaaatga catgcctcgc accaacctac cctgtccaat 240 ctcagaaaac ttggataaca tgtcttcggg tatggaccag ttgaaaacat cgaaattctg 300 tttgatcctg tcttcatggg tgctttttgg aagaacactt tgacccattt ggagacccca 360 gcgtaatgca acctgtgcag gagtcttgcc gagcttctca gcaacaccac caagaatagg 420 515 109 DNA Arabidopsis thaliana 515 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt ttttttttt 109 516 438 DNA Arabidopsis thaliana 516 cctctagagc ggccgccctt tttttttttt tttttttttt ttttcgttga gaaatttcct 60 ggttcttgat tttattagaa agaaaacaca gaaaacaacc ttttgttatc tgagaagatg 120 aatccagaaa cgaaaaggaa aagttccaag ttctatagat acagtcctct tcggcttgag 180 ggttgaggca aatttaaagc caggattatg attaacttca aacaaatccc tcaacttaaa 240 catgataatt atttccgtct gtggcttgta atcttgtcgc tagcctttac ggtggagact 300 ttcatgaaga agattcaaca ctctctatgg gcaagtctgg ttgtgtcgcc cattcagtcc 360 acgacccatc atagatcggc acgtcggttt tccccagccg gtgaagcccc attgccaaga 420 tgcaagctgt tacaccag 438 517 350 DNA Arabidopsis thaliana 517 ctagagcggc cgcccttttt tttttttttt tttttttttt tttttttttt tttaaaaaaa 60 aaattgaagt taaacaatta aaaaatctta caaaactaat tatgcttctc taaacacatt 120 accccaaaaa aaaaaaacag aacatatttt aaaaattaac actcaaaaat tacatttgta 180 atgcttgaga agcctattgg cttcccttaa accactatag taggcaccat gagttgtgga 240 gtaatgggtt ctatgtgttg cttcccctgc aaacatgact tgaagctcat gaaccttggc 300 ttgatcatga ccattgacct gaccaacctt cttattaatc tttggcaatg 350 518 386 DNA Arabidopsis thaliana misc_feature (1)...(386) n = A,T,C or G 518 cttttttttt tttttttatt tattagtctt ttagcataaa aactgaaaca acaaaaatcc 60 aaaatcccat ataaaaaaca aactgaaaaa accaataaaa tcactgcttt ctactacaga 120 ttattactct agcttcctct ttcttctcct ccattctctt ctaagctaat ctccttcttc 180 tcctcagtgg acgagaatct gcactgtcaa catcagagac ncttgaactg ttctcatgtc 240 ttctaacaga cgaagaagtc gatacagtca acattgaatt aatctcagcc gccgtttcaa 300 cttgactctc cgagtttatc acacctacta tgcttgagaa cgaatccctg tcttcaacac 360 caacaggagg actgctgttt tgttct 386 519 181 DNA Arabidopsis thaliana 519 acacaggctg cgatagtatt cgacatttta actggttttg acattacacg attttgtatt 60 ccttgcacaa agtctggtaa aacagtaata gcaagaaaag gtcaatgctt tcctttgttg 120 aggaactgga attagtgtat ttgtcaggag attattctac tttgagaatc tgatgatagt 180 a 181 520 249 DNA Arabidopsis thaliana misc_feature (1)...(249) n = A,T,C or G 520 acaagaagat gtaatctgtt ctcattcatt cataacaggt ttgttgtggt agttgttgta 60 acacaagatt tgttaggagg tgagttcggg gaagatatga catagccatt gttgttgtta 120 atgttaccct cttgtttgat gtcaacagcc accatggaag ctngttggtg gcttaacact 180 tgttcttccc aattctccaa tcttatcttc ccttgaaaac catggtgttg ttgttcatca 240 tgatgatta 249 521 369 DNA Arabidopsis thaliana 521 tctagagcgg ccgccctttt ttttttttgt taaggatttt ggtgacctgc catgcaagcg 60 cacctgtcat ggcaaaggtc ggatgacaaa gatgtttacg cagaactata tcgtccctat 120 aaacatctca tacatccatc aatcaactta actcacatca atatcacata tcagcttctt 180 ctctcttctt caccctctca tctctctagc tccatagaga attgacggat tcatcattca 240 tcacctcatc aaaagctcag taacgcagat ctgacgaacc tcgaggccgg tccatgatct 300 aagatcagat cagatcttca accgatcttc ggagctcaac cgcgacgatc cgtcttctga 360 cgaggaatc 369 522 449 DNA Arabidopsis thaliana misc_feature (1)...(449) n = A,T,C or G 522 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttt agtaggaata 60 ttattatang nnntgaatat actgatatac atcatacact tcaaggtcaa aacccacata 120 acaaaataat gttgacacaa aaaaaaaaaa caatgaataa gcaaaggagt gcatataaat 180 actaactcga tctctacaaa tggctttctt ttttttaacc atctcctcac aatctgcatt 240 gcatgtgatt ctgattccga aatcatgtat gtacactctc acttctttat catatcacta 300 tttcacctca acaacataac cgttctcttt ttaaattaga gccacatcac ctcggtgttt 360 tggctttttt gcttcacacc accctcttcg tttaccagtt tataactctc tcaagtttct 420 ctagtcactt ctctgatgcc acattcccg 449 523 422 DNA Arabidopsis thaliana misc_feature (1)...(422) n = A,T,C or G 523 tttttttttt tctcagaata gttgttggaa taattcacaa gaaggaaaca ttcttaatta 60 caaatggcat cacacatttc acacacattt cattcacaag ttttaaacat aattctcagt 120 atttcagatg gacaatgatc ctcaacagca tctcagctcc atcaacaaag tgttggcccg 180 cannaatcaa cggcctaacc tctgcaaatc cgcaagnnnt cttaaacctt ccggttcctc 240 cagtcactga cagatgtgac atggcgcttc ctatcctata gattccatag aaatttagat 300 tatcattgta ctctccacct tcaagcatag ctgtgaaagc catcatctgc gtgcttccat 360 ctgctgagct ggcaacataa acaccttgag ccttaccaag tggttgtgac cccaagtcag 420 ga 422 524 398 DNA Arabidopsis thaliana misc_feature (1)...(398) n = A,T,C or G 524 cgaacaaaga cgtaacaaag ccaagaagaa aagaaaaaaa ctacaaaaca gtaaaatgtc 60 aaacacaagt tatgcaaaat cacgacgaca gttatgtttt tgcttttagt tataaagcgc 120 ctcaattaga gacagcctct tctttcactg aaggacaatg cactattgtg aagctgccac 180 cattcatcga attctgctct tcaagctcct cttcttcttc ttcttcgtga ctactaaaac 240 cgatggcatc aaatatcata gtgttaactt ctctgaatct ctcctctgat aaagaaactt 300 cagctagtaa cctccatgcc ttctcttctg acnnnccttc atagtcttct ttcctccgga 360 cgcgtgggtc gacccgggaa ttccggaccg gtacctgc 398 525 154 DNA Arabidopsis thaliana 525 ttttgtgtct cagccggaat gggtctgaag tagaagtacg gacaagacaa agaaaccttg 60 tctgtctcta tacaaacatt atacacaaat tccaaaaaaa aaaagaagaa gccttttctt 120 gttatctttt ttggtatatg cacatataga tttc 154 526 390 DNA Arabidopsis thaliana 526 cctctagagc ggccgccctt tttttttttt tttttttgtg tgtttatttt attttctaat 60 ggtaagacaa acaacaattt taaacatatg gtatttcatg tactgtatat ggatgcaagc 120 ctaaggatct caaactagta aaataagaac aagaaggtat atgacccaaa caccatcatg 180 ttgcagtgag cacctaaggc ttttaactct tgtttttgac aaacgatttt acccgagaaa 240 cacaactaag aaactgagat ctcttccatg ccgctaattt cttcagtcag ctgatgctgt 300 actttgggct ccaagtcgat gaactggttt gacttgcttg ctagatgtga gatactaact 360 cttccttgac gtttgatgta atctgcaacc 390 527 465 DNA Arabidopsis thaliana 527 tcgaattcgc ggccgcgatt cgatgaagat caagagttat agaggatcgt tagagtgatc 60 aaaatcccac gaattcacaa aggatccgtc ttcatagatc cgtcagatct gttcagcgga 120 ggtacatact tcttcgtcat tcactgcttt ctggattagt tggtgagaat aaacggctgg 180 tgggtctcgg tgggaagctg aattggatgt agagttcatc agactatagc ttagagaaga 240 aaatgaagtt ttttgaatcg ttttgctcca gttgaggttt ggaagctgca taccagctca 300 tggaagagat ttcacctgca gttgcactta ctttgggttt agctaatacg atgtgtgact 360 ctggaatctc atctactttc gatatctccg agctggagaa tgttactgat gcagctgaca 420 tgttgtgtaa tcagaaaaga caaagatata gtaatggagt gtgga 465 528 332 DNA Arabidopsis thaliana misc_feature (1)...(332) n = A,T,C or G 528 ggatcctcta gagcggccgc cctttttttt tttttttttt tttttttttt ttcaaccaca 60 aaataaaccg gggtggtgtc atagcatcga cattaactta aaactacaaa atagagctgg 120 gtcctcgtca ggttttaagg atacatatgt atgcatgtat gcatatacaa aataatagag 180 cactaaagct tgttcgtact cttttttaca caacatgcta ataatttnnn taccttagga 240 gtgnaatttt agtggtccaa caacttaagc acctaagatc cttccccact tttgtttggg 300 gctcccggac gcgtgggtcg acccgggaat tc 332 529 159 DNA Arabidopsis thaliana misc_feature (1)...(159) n = A,T,C or G 529 tgaatataaa ataatctggt aattatttta cataatataa tcatattatt gaacagtcag 60 cttggtggtg tgctccatat cttcttttgt tcttcaaagc ttcctantac tgcagattgt 120 ttcttatcat cgagtctaga agcaaaactc tcagagatg 159 530 208 DNA Arabidopsis thaliana 530 gacaaaatat tggctcaggt aaaaaaatat caaataaacc ggagtacatg gtgtttgcac 60 aaaacaacac tacagactct ggaggaagcg agtctgaatc agaacaaaat gttaatgcaa 120 ttattcgaaa tcctgctgga aattacaggt atgtttatta aaaatcgttg agcaaacatt 180 ggtaggtctc aacaagaagc cagcaaag 208 531 184 DNA Arabidopsis thaliana 531 atggtactta tcattaatcc attacaatgc tgccctaatt acaacacaaa acgaaaccct 60 aaaattcaac ccaatttctg gaatttcttg atcgcaagac ttaaattatc atcattcacc 120 agaaaaccca gatctcaaat tgatcaacca ccaaatccat atagagttct tccttgtctc 180 ttca 184 532 443 DNA Arabidopsis thaliana misc_feature (1)...(443) n = A,T,C or G 532 cgataagctt gatatcgaat tcgcggccgc taaaaacccg agaaaagtgg aagaagaagg 60 aaggaagaag aagacaagag agcattctga ttcatgtgac tctggtttcg tttctttctg 120 tgtctctgct gtgtcgtttt ctcggcatat ttctgatctt tcgttctcgg ttggtttttg 180 gtttctgggt attgattgat tgattcaaaa gtcttcaann ntcctggaaa ctggatctgg 240 gtttatccgt ttttactcgt ctgagaagag aaaaaaggat gaatccttat gatgcgaaag 300 acagaagatg gattctctct atgttcttct tcgtcgtttt gttctgcaac aacgtttcga 360 cttcgtcttc ttcatctgaa gttatcacga ttaagccaag acatttatcc ttgctaaaga 420 gtgctttaca acggtcaagt gga 443 533 438 DNA Arabidopsis thaliana 533 ctggccattt atttgatcaa tcacaattca gtaaaaacaa agatacaaag atgaaaagtg 60 aactcaaagt acagttacaa cctttgtatg attcatatga aaagttgaag taacaaagca 120 aacatagtat ccttctctta gtagttacca aaaaccattg agccaataag gcgtctcctc 180 taggtaggcc ctttcactcc gggtaagata gcattgtgat gagtgactcg tgttgcggaa 240 accttgataa gagatcagag cgtttcgcga gctcaaagtc ctcgaactgg aaagcaggag 300 cgcaggtgca gccaacaaga gagaaatggt tctcagagtc tctagcctca gctttaagca 360 gagccccgtc ttgagaaaaa tgaacatcct ttgtaggaaa cgaaccaaac cagacgtttg 420 gagggaccgt gtactgag 438 534 328 DNA Arabidopsis thaliana 534 tttttttttt ttttttcagg tcaatatatt tttatttcat agaagttcgt atcagtcgat 60 acatatctta aagtaagaca accaaaaaaa aaaaagacaa cacactgatt attgatccga 120 cgtggactca tcatatcacc atgccaagat catagatgtg ttaaaattat tctgcgtact 180 taacttagtg ttaagtaaac tagttaaaaa catgataagt caaacccaca atgcaccagc 240 ccgcttaagc atgggaatca aggatccgtt aagatgtaga ctcatgacct cgttggctcc 300 accgaccaac tctccaccaa tgaaaacg 328 535 113 DNA Arabidopsis thaliana 535 tctagagcgg ccgccctttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt ttg 113 536 459 DNA Arabidopsis thaliana 536 cgataagctt gatatcgaat tcgcggccgc agaacaacca cagtttctac gtttagcaac 60 tcattatttt taggcgccat caagaatggg aaagactcct ggtaatggat caagactttg 120 cttctcggga agaagtcgcc taagtcgaat tcggataacc gaagccagaa actgaaatct 180 gctaagaaag aagagctggt ggaatcggtg acagaagatt tgtcaaactt aacagttgat 240 cctccggtgg tttcatcaca accagttcca gcttctactg ctcaaaatgt ggtttctcca 300 atcaatggtg atgagtccaa ggataatctc gagtcaagga atgacttggg agaagtcgag 360 cttgaacaag ctgcaattaa ggttcaagct accttcagag ctcatcaggc acgtagagca 420 tttcgaactc ttaaaggtat catcaggctg caggcagtt 459 537 103 DNA Arabidopsis thaliana 537 ctagagcggc cgcccttttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt ttt 103 538 140 DNA Arabidopsis thaliana 538 gtcatcgtta attagaccat agaaccttta taacacaaat gattccaaaa tctttccata 60 cactaattaa tgtttccatt catcatatat tttcgcttag aatttctaat ccgtttttta 120 tggtaagtaa tataataaat 140 539 297 DNA Arabidopsis thaliana misc_feature (1)...(297) n = A,T,C or G 539 tctagagcgg ccgccctttt tttttttttt tttatgagaa tgccgtttac gagcaggcca 60 tattgaacaa ggtcctaaat ttctgaaact ttaacattaa ctctctttaa aaaaaatata 120 tcttaaacac ttctaaaaat aanataattt tgtttggcca cctgatttct caggaccggc 180 tctatttgtg aggccacatt gcaagttaag aaaattccaa atgttactac actaatacct 240 taaagtctca accttgcacc caaaaattcc gtgctccatt tatcgatgga cttaaaa 297 540 533 DNA Arabidopsis thaliana 540 cctctagagc ggccgccctt tttttttttt ttttttttaa tcttaaactc ttaaccttac 60 atcaaagtaa cttttattac attgcataca agaaaagaac aaaccagcat tattaggttt 120 gagattaaac ctgttcccac acatatacat agagatatga actctacaat ttcaaaccag 180 agccttgaag tttctcctca acaatcatgt cgattttgtt ttccatttca ggagtcatat 240 aactcttcca atcaccaact tcccctttac ggaaaaaact cttgaaactt actccttccg 300 acaagcttcc tgttttgttg atctccaaac cgctaaggtt tcttagagaa caaagttcca 360 agatcttgtc tacacctcca ctatcttctt cttcctttgt gaatggacaa tctaagaact 420 ctgcaagtct cttgatttgc acacgaggct ccgtcttcaa ctcctcgtac ctcaagaaaa 480 gcacatgctt aggatcttcc aagcttcccg gacgcgtggg tcgacccggg aat 533 541 517 DNA Arabidopsis thaliana misc_feature (1)...(517) n = A,T,C or G 541 tattgattat tatacgcaaa aaaagcgtgt aatgtattca tgctattggg tttattttaa 60 atcgttcctt cttcatctat attacagtac cactctattt ataaccacac aaaagactac 120 tagtatacat aacaccagca tgatgtttca gacgatgatg atgaatcaat ctccgaactc 180 aaagtaggtc ggcttgggag tcgaagggca gctaatggct tcaacaagct cttgaacagt 240 gagcatttgn nactttggag gcgaattaat ggctatgtta tcgactttat gctcataaat 300 cttgccattc ttatcgaatt tatactcaga agtaccatcg aatcgaccac gagtctccca 360 cggaccacga ggaattccat gaacagtcca tcgtatcatc agagtgttct ctgtgggttg 420 ccaaacacta acaatgtcca cacatagtgc tctgaagaag atccttccat ggaaacgtaa 480 ggccccaaat atggatttgt agttatcaat tcccatg 517 542 118 DNA Arabidopsis thaliana 542 tctagagcgg ccgccctttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttt 118 543 394 DNA Arabidopsis thaliana misc_feature (1)...(394) n = A,T,C or G 543 tttttttttg agaataagtc aatggaactt tattgttgaa acgttgtccg cttatttgaa 60 ccaaattcag tttataattt gagatataac acaaaaacag taaatgaaac tctgtctctc 120 ggtctcagtt ctatgaggtg tactcagcgt tgatcttgac atagtcatag ctaagatcgc 180 atccccatgc ctttccgatg gctgcaccat cacctacgga tatatcgatt gnnnctgttc 240 cgtgaacctc accggttttc ttgaggtagt tacttgctcc atccctgtca aacggaagag 300 gttgaccact ctccatgagt gagaactcgc cgagggatat cttcagctta tccatctgaa 360 aagaaacccc ggcatagcca gcagctgcag ctat 394 544 160 DNA Arabidopsis thaliana 544 tatactgtct taagtaaatt tattggttca caacttccca tagtcaaaaa gaaaaccccg 60 aatcctaaaa agttcaaaat acattacgaa gagcaatgta atactattaa atatatgtat 120 ctaatatggg atttttgaaa acagctaagg atattagaaa 160 545 163 DNA Arabidopsis thaliana 545 aatcaacaac atataaatgc accatccaaa aaaatacact catgacccac ttactacaag 60 aagctgccgc attatagacg aaccaataaa tctcagaaaa aaaatacaca cacgcatggt 120 ccatggatga gagaggaaac ggtattgagc aaagcaatgt gaa 163 546 387 DNA Arabidopsis thaliana misc_feature (1)...(387) n = A,T,C or G 546 ttctttttgg ctcgatttca tttatcgtca aaatcaacaa accttacaaa agttatgcat 60 cggggaaaag cttgatccga ataatgtgtt acgcatcaac acaaattatt actataacca 120 gctagagcaa tcagccgatc ctcaaatcaa acacaaaaga gcagatattc gaaaatgaat 180 ccataacgaa tgagaacgat gcacgagaag gcatcaaaag ttattcagga cgtgacttga 240 cgatgaaatt ctggcgactg atagggttca tgacgacggg aggaccagca actcttggcc 300 atgcttgnnn tctctcttca gtcgcagcac cccattcctt gttagtaata gttcctggtg 360 tagtacctcc aaaaagctta tcatcag 387 547 346 DNA Arabidopsis thaliana misc_feature (1)...(346) n = A,T,C or G 547 cctctagagc ggccgccctt tttttttttt tttttttttt taggtaccca ttcttgggtt 60 cttacaaggt aggctcgtgc ccgggttcac tcgtgaaagn nnggttatag cggtaaagta 120 aagaaaatcc tcccttcttg cttccttagg gtacgtcccc tatcgccttt cattcggaaa 180 agctcgagtc attatccttc ctgtacttca agtgagagct agagcgcttc tttctcaatt 240 acatcgaccc ttcgcacctt ggaatattga atagacactt ttgaatcccc tctttcgatt 300 agtaggggat tccttagctg agcatcaatc ccattctttg cggata 346 548 436 DNA Arabidopsis thaliana 548 aattcgcggc cgcggtcaag tctgctagta ttggcagtgt tggtgatcgg aactggagcc 60 gttcccatca cttatctcca aagcgccgtc gctaaaggag ccgtgtgttt ggatgggagt 120 gcaccagctt accattttga caaagggttt ggttcgggtg ttaacaattg gatcgtccac 180 atggagggag gaggatggtg taccgacgtt gcttcatgta atgaacgtaa gggtacaatg 240 aagggttctt ccaaattcat gaacaaagac tttggatttt ccggtatctt gggtggcaag 300 caaagcacta acccagattt ctacaattgg aacagaatca aagtacgata ttgtgacgga 360 tcatccttta ccggcaatgt agaagccgtt aatccggcaa acaagctgtt cttccgcggt 420 gcccgagttt ggcgtg 436 549 327 DNA Arabidopsis thaliana misc_feature (1)...(327) n = A,T,C or G 549 gcaagttcta aaattctaac aacttttcca atcaatactt ttcaaagatt tgaaactgaa 60 atcaccatgt ggaatcttca atatcttcaa tatcttcaaa tccttttgtc ctcacttggt 120 aataattaga cttaaagtgt gaatcttata tcgttgtatg agtgtaaaat gattannnat 180 tgttttggta tatatcaaaa atgaaaacca aaagacaaca ataatcatct gggcgtctac 240 aaacatcaaa gcccacattg gtctgttttt catctctttt gatctaataa ttagaaccaa 300 gctgccacgc atgaagcaga gaagcta 327 550 487 DNA Arabidopsis thaliana 550 ttttttagtt tagtgacaaa atccattttg taacaatgta aaactgaaat ttctgaggtg 60 gtctacataa gctttttaat gatctgaatg tttcaagaac taaattcatc aaaagaaaga 120 gagagattac atggagacga agcgggcttt gtacattgtg atgtacgcca tatgccaatc 180 acctcctcca gatagctttg tgatgtcttc ttcgcgttgc atgctcgggt tgtcatcatc 240 atattgaatc catttgccac tctcttgctt gacccatgca acataatgac cagagtctgc 300 actcctgccc ttgtgggtca acacagcgac caagtcatag attccagtca tgtgagtttc 360 cttctcagaa gaagtacctt cctgtgggtt tactgtggat gattctccac ttccatttgc 420 agacgcctct gcatcagtca ttttcacatc actgtccttt gagccactct tagcactagt 480 ttgaaga 487 551 452 DNA Arabidopsis thaliana 551 aactcttggt aaaagcttca aatcttacat ttatataact tcttcctaac ttacaaacac 60 actacataga gaactagaag acatcaaagt gcaataaacg cctagaataa gatacaatat 120 aagacttcat cacagctgaa cactttttat agttgcttca tcccaaatca atatgattct 180 cttcattctt cagtcccttc agaattcaga cacagtccca gattcaaatt accagttttt 240 gcttccttag tttggtccga gtctgttagg ttcatgtcta gctcaacagc tttaggtaat 300 ggagattcag tgtcgaattc ttcagtctct tcaatttcag aatccttaga aatcactttt 360 tctctatgct caagcatcgc aattggagcg tatctgaatc ttcgcttagg cggctcctcc 420 gtctcaccgg aaccattagc gtcggaggca gt 452 552 551 DNA Arabidopsis thaliana misc_feature (1)...(551) n = A,T,C or G 552 aaatataata tagtttcatt atttgattag cttagatcca acactctaga taattgaaga 60 acaattannn acataaatta ctagatagca caaatgctac acacctccgc cctctaagac 120 tggtgaagca aacgacgcaa gacaagacaa aaatgaaaca cacaaataac acaaacaaac 180 aagtctctgc ataaatatga gtaagctctt attgtctcat tcatctttct aagagcatcg 240 ttcacgtgcc aaaccgagcc gtccattggg gacgtcgatg aggacacggt ggttctgctg 300 ctgcatgctt gcgatcacat tgacgacaga gtttacgttt tccggcgctg cagccatggc 360 gaggcacgac gtgcttccgg cggtactgtg taacatcagg ttatcagccg gcatcgtcat 420 gttcactccc ttgaacatga atgttatcgt cggcaccttg acttgccctg agtagcacgt 480 gtcgaaaccc ccgagtgacg tcaccacggc tgtggttggc ttcacgcgct tcctgaactc 540 gttcctcact g 551 553 359 DNA Arabidopsis thaliana 553 acgcaaagcc tcttgtactg aaaggtggaa acattgagtt tgaaaatgta cacttcagtt 60 accttccaga gagaaaaata ttagatggaa tttcctttgt cgtaccggca ggaaaaagtg 120 tggcaatcgt tggtactagc gggagcggca agtcaacaat tcttaggatg ctattcagat 180 tcttcgacac agattccgga aatataagga ttgacgggca agatataaag gaagtgagac 240 tagatagcct ccgaagctcc ataggagttg tgccgcaaga tactgttctc ttcaatgaca 300 caatatttca caacatacat tatggacgtc tctcagctac agaagaagag gtgtatgag 359 554 400 DNA Arabidopsis thaliana misc_feature (1)...(400) n = A,T,C or G 554 atttaaattc tcatgttctg tatcaaaact taaaaaaaga ttactaatct ttcaccacca 60 aaccggttcg aactcgaatc atcatcatta cagattattc gtcgtcttgt tgttgttgtt 120 attgctaggc acaagctcga actcacctcc ttcctcttct tcattctcct cttcctcatc 180 ttcatcgtcg tactcttcat ctgtaccttc ttcatcatca aagttctgct ccgacggctg 240 agattgctga tcaggctgag ccgctgnnng agtagttgtc gcagtcgtta cagccggann 300 nattgctgct ctggttggac catcaaggga acagaattat ccggtttaac aagaccggaa 360 gatgaagaag aagctgcaat gttgttgttg ctgtggaatt 400 555 220 DNA Arabidopsis thaliana 555 tttttttttt taaatgtact aagaaccttt ttattacctt gtagaaagag tacaagaacg 60 ttttggctcg gtttattgaa caaagaccaa gaaagaacca aaccgaagac aactatttgg 120 ttaacacaag atgaccggta caactttaca attttatcag gttctcttct caaagttgta 180 agtgctcata ccacgggacc aaaacctgtg aagatgcttg 220 556 157 DNA Arabidopsis thaliana 556 tgacgtcgca tgcacgcgta cgtaagcttg gatcctctag agcggccgcc cttttttttt 60 tttttttttt tttttttttt ttttagaaac atatcagact ttctcgattt tatatgtcga 120 accaacgtga tcttagcatg tgattaagta cacatgg 157 557 342 DNA Arabidopsis thaliana 557 gccttttttt tttttttttt tttgaaatgg aaacgaaaat tttattagtt acaagattga 60 taaagacaaa tcttatacag cttgaactaa cggagtatta ggctttcttg cttacatgat 120 aaccatatcc attatatggt ggtacataac ccataggtaa tgctccaaac aatgagggat 180 ttgttggatc accgttccct agtcgggcga tgtgagattg agccttttga agtcttcttg 240 tgtgtctttc tcgttctgtg tctgcccatt tgacaactaa aggaacagtt gaaccctcca 300 ttttatgttt tccgttgata gattccatgg cggaaacagc tt 342 558 337 DNA Arabidopsis thaliana misc_feature (1)...(337) n = A,T,C or G 558 ggccgccctt tttttttttt tttcttcaat caatatttgt ttaacgaaat aagtttcaag 60 agaagacaag ctactatgat ttnnngtctc aagagtctta catttttata ctgaaaacca 120 aacttataga gctttacatt tagaaaaccg aaaaaactat caatcattag gttagccttt 180 ggattcacga cgacgtatca gatttgcgtt cagcgtctgc ggcagactgc atttgagctg 240 cgtattgtaa gttccagaga acatcttcaa aggaaggtct tgcggaaggt tcaagcaaaa 300 cacatttatt ggcgattgag atcgcaatcg ataaaga 337 559 481 DNA Arabidopsis thaliana misc_feature (1)...(481) n = A,T,C or G 559 ctctagagcg gccgcccttt tttttttttt tttttttggg aaaaaaaaac aaaagacaac 60 aatggtcctt aatccttatt acgatctctg aaattaacaa atcagtaggt gtaacccttg 120 acaaacattc ctttcttggc atcctcgtnn tctccctcgg ctgagtattt gccgagctgg 180 gccagtgagt tggcctttgc cctcaccaac agtgccttct gcgaggcctc aatccggacg 240 cgtgggtcga cccgggaatt ccggaccggt acctgcaggc gtaccagctt tccctatagt 300 gagtcgtatt agagcttggc gtaatcatgg tcatagctgt ttcctgtgtg naattgttat 360 ccgctcacaa ttccacacaa catacgagcc ggaagcataa agtgtaaagc ctggggtgcc 420 taatgagtga gctaactcac attaattgcg ttgcgctcac tgcccgcttt ccagtcggga 480 a 481 560 201 DNA Arabidopsis thaliana 560 gcgaaataca tgacggactt agtggactcc gggggctatc gctaacccga ccaggccgat 60 acaatccaaa ccccatgaaa aagaactcca ttggtatcaa cattgcatgt ggttgctctt 120 ctgtcaccat tgatccacaa gcttgcacct caaccaaggc gctgtacttt ctgtccaatg 180 ctgtcaccat gtgaagagtt t 201 561 171 DNA Arabidopsis thaliana 561 tatcgataag cttgatatcg aattcgcggc cgcatattct ttacgctccg gatgatgacc 60 atgcagcact tctacaccgg tgtatcggaa tacttctcca gaaagttaat gatagagcat 120 atgttcgtga caagattgac tggatgtacg aacaggctga catttctata c 171 562 397 DNA Arabidopsis thaliana misc_feature (1)...(397) n = A,T,C or G 562 gccgcccttt tttttttttt tttttttttt tttttttttg catgaacatt ctactcataa 60 agtaagacta tcatccaaca acaaaaacnn ngatgagatc gaagtcctac aattattcag 120 aagcacaaga aaaagaaaaa aaaaaacaga acacgaaagt aagacagaaa accacgaaat 180 ttcgattcaa caaaaacaga gcaaataaca gaacaagtga acaacaccgt ttatccagta 240 tatcccccgc cggttccgta cccggtggca ccaccaccac caacgtgagt gttatgagcg 300 gttgtccgac cagttccagt gttccttcca atcgggtcgg tcacagccgt gccctccaca 360 acgcggtcgg tcagttgtcc cgttccgtga ccaggca 397 563 341 DNA Arabidopsis thaliana 563 ggccgccctt tttttttttt tttttttttt tttttaaatg aaagctacgg gagaagcttc 60 caaatttcac tgataagtgt tttatgttat gcaataaaaa caaaagaaaa tttgtttttg 120 tgggactgaa acatctagtc tatgtatcag tggccatttc caagcttcca tctttgtctt 180 ttgtcgaatg attgaggaaa ttcccaagca gcctttgatc caacaccatg ttaggtacct 240 tgtccccgaa gaatattttg gtgttacgag caatggcatc gatgaatttg agttcaagaa 300 attcaggggt gagcttcaac ttatttgctt cagcttctct c 341 564 470 DNA Arabidopsis thaliana misc_feature (1)...(470) n = A,T,C or G 564 cggccgccct tttttttttt tttttttttt tgtttacaaa aaaaatttgg caaagcagtt 60 annnncaaca agagaatagt actttgggta aaggaatata agttgtaaat attacagaaa 120 aagaaaaaac gtaaaacaaa cctacaaata aacacacaca gaggctacaa tacatgacca 180 caaaagcttc tggaggagct tctttctgcc tattattctt tccaacatgg tggttagaac 240 aagtatgtat cactaaccct acaagtctca catttttacc acatatacac cacagcaatc 300 cagagaccac caatttttga ggacaatcac cgcaatttct tctacattac ggcatacggc 360 aaacctatat tgctgtcctc gagattgact tacccacttt actcttccaa gctccaagag 420 tctcattgtc agaagtctca gcattctctt cagcttctcg gacgcgtggg 470 565 377 DNA Arabidopsis thaliana misc_feature (1)...(377) n = A,T,C or G 565 tgacgtcgca tgcacgcgta cgtaagcttg gatcctctag agcggccgcc cttttttttt 60 ttttttnnnn aactatttta ttagtttttt cataatagct actaaatttt tatgcataaa 120 cagataaaaa cacaaaagga aaccaagtaa gagaacgatg atccagcacg ccgccgtctc 180 catagccgtt tctttccctc gccgccactt catctccgcc ttcgcggtct tcctctccat 240 atattctatg tacttctctt tcccttcttc ttcccctccc gccctaaacc tacgtttcat 300 ccccatggcc gcaaccaaaa tttccaaact acccttccct cctaggttcc tcccatcctt 360 gtcctctcct actaggc 377 566 347 DNA Arabidopsis thaliana misc_feature (1)...(347) n = A,T,C or G 566 gccgcccttt tttttttttt tttttttttt tttttttttt tttttttttt gccggaaact 60 agtaactata ttatataaat nnatgaacaa gtctctaaca ttagcgtctc ttactctact 120 aaaggttttt cttccataat gagataatga tattagagta cacattgctt aattgctaat 180 gaccaatgac ataaatctaa accccgatct aagctgcttg ctggtcccga ctgctttccc 240 ggaacattat tacatcatac agcatctgaa accggtgaaa gattagagaa ccgcacgcag 300 tgtcccgggt attaagatct ggttcagctg tgaccaaaaa cggtttg 347 567 305 DNA Arabidopsis thaliana 567 tatcgataag cttgatatcg aattcgcggc cgcgtgctgt gacttcatct ccattggagg 60 aatctagttc cggggaaaag ggagagactg aaggggacag tacttgttta aaaccagagc 120 aacacttggc ttcttcgccg cactcatatc ctgagtcaac tgaagttcac agcaatagtg 180 gctcccctgg ggtaactagt agagaacaca aaccagttca aagtgctaat ggaggacatg 240 atgttcagag tcctcaacca aataaggagc ttgagaagca gcaaagcagc agagtacatg 300 tagat 305 568 451 DNA Arabidopsis thaliana 568 ccgccgacta gtatcgctgg tcttctaatc gttaatttct tgtttcggga gcagatatcc 60 atatgtgctg gtttccggta aacagatgtg cgctcattct cgtacttatc cccgttaagt 120 caatacgaca gcaagcacga aaaagggagc gatgaattat cgctcccttg tcttataacc 180 attcagacat ggttagtgtt tcttgtcatt catcacaata tagtgtggtg aacgtgcacg 240 cgggtgcagg aagaagtgac cttttggtgc gttctgactg ttgattggct ccagagtgac 300 gccggtattt gctttgcctt tacgatcatg aacagcatag agaataaagg gcagggcaag 360 taccaccagg aaactaacaa ccagtaattc aacatacata tcggtagaat caccctggat 420 gttatccggc ggcaggaagg aaacaataaa c 451 569 468 DNA Arabidopsis thaliana 569 ccgccctttt tttttttttt tcttgcaatg ttgttgtacc attggaaggc tttttttctt 60 gggtgacaaa aacttttaac ttgaggttta agttgtagat tgggttaaag attatagatg 120 ctatcggaag caacatgtta agatcttgga atgtcctaac cgcaaacaca agctgcactc 180 tcttgggaga tttgagtcgg tttttgctcg ctagttcttt caaaatgctt agaaatggtg 240 tgatcccaat tcctcccgcc acaagaaaca gattatcata cctgagaaaa tctaccgagg 300 caggtccata aggaccttcc actcttacga ttatgttgtt aatcttattt tcacaatttg 360 ccgcttcttc tattttgtta taaacagaat ttgtccaatc tccctcacat ttcatcataa 420 tagacaatga gtgtttgtct acactcgagc ttgagataat actaaagg 468 570 382 DNA Arabidopsis thaliana misc_feature (1)...(382) n = A,T,C or G 570 atcctctaga gcggccgccc tagcccattg agtgctctac ctcgggccat cgacatcata 60 cgctctactg aaatagattt cgcggaaaac cagctatatc cgatcttggt tggcctttca 120 cccctagcca caagtcatcc ccgtattttg ccacatacgt gggttcggtc ctccaaggcc 180 tgttagagct ctcttcaacc tgctcatggc tagatcgatc ggtttcgggt caaataggaa 240 gaactagaag attccacctt tggaaagcgc ctacacctaa tggcttaagc cgctcttccc 300 atttcctcgc tgacccatca tgcaaaannt acgccgttag agtgagtgcg cttgactact 360 ccttcgactg attgttcgca tc 382 571 331 DNA Arabidopsis thaliana misc_feature (1)...(331) n = A,T,C or G 571 ttttttttta acaacaagct ttttgattct gcttttatgc ttttatattt acattctaac 60 aaacaaaaac agaagcgtca tgtgtccaaa ccaaaattta catcaaaact cttaccctaa 120 cacatatcaa gaaagtgaag aaaccctaag catatacaaa catggccatc tctgnnaana 180 naactcagtt aacttctggt atgctctgta gaaccggtct ccataaccgt tgttgattgg 240 cttcttcgta cccgcgattg ttcaggattg gacatgagaa ggtttgttgc tggaaggtca 300 agtcatggac gttgacttta ctcagtaaat c 331 572 381 DNA Arabidopsis thaliana misc_feature (1)...(381) n = A,T,C or G 572 ttcagcttaa tatgttaata aaaactatag gttatacaaa tacaagacaa aaacgcaacg 60 cagcgttatg cctcttcatc aaagcatctg gttccgcttc gcctccccag acgccacata 120 cattttgatt ttctagtgta gtagtagtag attcgtaatt aatatattac aattatagtg 180 tcgaacctcc agacttcttc aactacgtgc cgttttnnnt ataacgaacc gacacacatc 240 actgtcgttt tgaacaccac gtcatcatct ccaancnagg cggacttcac ggggcccggc 300 gacgagttca ctgggtttcc ggaacgaaac gatgtgactt ccggccataa acgccgtgac 360 tcgctccgag actcgtatat c 381 573 385 DNA Arabidopsis thaliana misc_feature (1)...(385) n = A,T,C or G 573 atcctctaga gcggccgccc tttttttttt tttttatacg aacttacgac ccaataaata 60 agattaagtt agagaaagag aaagagaaag aagttgaaga tgtgcaaaaa cgtaaaccgt 120 agtagttaac aaaagaaaaa acgtggaaca caaaccacaa acccacagct acatgataac 180 attataacaa gaacataagt tagaagaaaa gaaaaagata caataaagac gttacataac 240 aaanaagaag aaaagaaagn nntcttcgct caagtaacgg ctccgaggaa gatcttactg 300 gtagtacatg agctgctgcg cgttctggta accaccgtca tatattgcct ggtttgaacc 360 agtggctccc attgcagctt gttta 385 574 384 DNA Arabidopsis thaliana 574 tttttttttt ttgtgccgaa attacagcag atagattaag ttgtgaattg ttacaagctt 60 tgtttgtaca tgttgaaatg aaaattgagt tctgagttct gacaagtgtt acacctgaag 120 aacctcaaag aatgactact agttcttcct ggaacaggct tgtaattaaa cttcattagc 180 ttctgcttca gcactcatct gcttttgctg tgtgctgttc tcatctgatc acttgcccat 240 ggtagaccaa cgaaacactg taagcaatca caagggggag cagtgaacat aatataaagt 300 gacaagtcat gaatgcccta catcactagc ctctaaaatc tctcaaatat gatcaaacca 360 atggcgcatt ttgctcttct gaat 384 575 302 DNA Arabidopsis thaliana misc_feature (1)...(302) n = A,T,C or G 575 gatcaataac agtagactct ttcatttact tcttttttct ttattgtaaa ttacacattc 60 ttatacagga gaggtagcag caggcaaaag agcagctgta aagagtggtt actctccctc 120 gagattggag ccaaggtcag actgcaacaa gatatctcca gaccaccagg gcatcatcat 180 caccttatgt aaatatccga actttttttc gcaagagagc aatgaacaga agctatannn 240 tagagcctct tcttctctat agcaaaaagt gatacacagt gccttatatc tacagcgggt 300 ga 302 576 450 DNA Arabidopsis thaliana misc_feature (1)...(450) n = A,T,C or G 576 cgcccttttt tttttttttt tttgcttagg gttgatgttt attttgattc caatcttgtt 60 tacactttat aagcagcgac cacaaaacaa catatatcaa aaatcaaatc atgctagtac 120 acacacattc acacggcatt taaggttgta aagtcactta caaaataacc aaaaaacaaa 180 acaataaaaa actgagaaag aacaaattaa tcaattattg cgttagggtt ttggagttgg 240 gaaaacccca gtgtactcaa acgaatccct accataagga tcaccagatg cttcctcgta 300 tgttgctgaa tcggcgttag ggtttaatcc aacaagccgc aatatgctct caagttcttg 360 caccacctca ctcattgttg nnntattaac tccctctggc tccacgcatt gtagagccac 420 atctacatac ttctcgaacc ctttcaaatt 450 577 157 DNA Arabidopsis thaliana 577 atcctctaga gcggccgccc tttttttttt tttttttttt ttttaaaagc atgtacaata 60 agtgatattc atttaatgat acagtacatc attttgacga gaaattacag ataacaaaac 120 ccacattatt agaaccaatg tctaaccaat tatccgt 157 578 313 DNA Arabidopsis thaliana 578 cgcccttttt tttttttttt ttttgagatg acattagtat aatgatacaa ggaattgtgt 60 tattgcaaaa gcgtaaatta aaaattatag aagaaaaaac aatagaacgt ggagcagttt 120 gatcaaaatc ttgaatttgc tcaaacttta gagaaaacaa taaactcaaa aattcagatt 180 gagaaaccga ttcattcaaa acggtttgat ccggttacga tcctctggaa gatgatgaac 240 caactgttca aatactgcaa tgcatcctac ttgatgttga aattcctagt ctccgtgtgg 300 ttcagattca tga 313 579 539 DNA Arabidopsis thaliana misc_feature (1)...(539) n = A,T,C or G 579 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttt tttaagagaa 60 taatattcga cattagtctc ctttgtttgc attatcaata tcaaatattt tggctttgac 120 gagtccttaa acagagaggc aagttagact ttattgtaag agttaaaaca tgatgagatt 180 agattgcact ggtgattcca tgaacgcata catcagcttc aacaagacat acatctttga 240 gcaacagacc actgtttggc tgcgtgaaat aaaccatgga tacatatttc acccatccat 300 gctccgagct tgatcgacta aaccatttag taaccttccc ggcaatgtgt ctgccttgta 360 actgatcaaa tattcgaatt gtaaactcta caaatatctt tgtaccatct gaaatggttt 420 caggatcaac aagggtcaga tagatagaaa gatgggttcc tgttccttgc tttgttcccg 480 tnnnnnaaaa ctctatcttc cattttctat ctccagcgaa gaaagcatta gagtcatag 539 580 210 DNA Arabidopsis thaliana misc_feature (1)...(210) n = A,T,C or G 580 gttcaagctt ccgacaccgt ttccgaacga ttcccactca gtgcttacag ctgcagcttt 60 gctctgatcc acaaacggat ttgaacatct tgccttcaac ttatccacag cctcctgcan 120 gntttggatt ctacgtacct cagccttacg ctgtacttta gcgtcccctt cagcctcaat 180 gccatccaat ttgagcagct gcctcataag 210 581 384 DNA Arabidopsis thaliana 581 ccgccctttt tttttttttt tttttttttt tttttttttt ttttttttca cattttaacc 60 catatttgat tgacaactta caagcctcca tgaaacattg aaacccttag tttgcagaga 120 acacagtcgt ggttattgcg gttttacatt acaagctttg atttatctaa tggagataca 180 atatattaca aaccattctt cacttgtcga tccctgcctt cacagatctg cctttaattc 240 aaattgaaat caagaagaag atcgtttccc ttcacaatca agactctcat cgaaattctt 300 cgaagggtat ttagcagtta tcccagcaac ctcaaagaca agattatctc cagaagatcg 360 aatcccagta atagaccacg actt 384 582 418 DNA Arabidopsis thaliana 582 ggccgccctt tttttttttt tttttttgta tagaacttac acttcatctt ttattccaac 60 aggcattagc ccaaacatat aaaccccaat attcttttac aattgaaatg catcaagccg 120 tcaacagata tacacccaat gacccaaact gaacaaaaac aaaaaaagtt aaaacagaac 180 agaagcaaat gagggaggga gggagagaga gagagagaga gagagataca catggtggat 240 gattttcagc ttattcccag ttgcagactc caaagtttgt tttatctact attaaggcaa 300 atgatgatcc tgctgaatta tttttagaag atgtgaaggg gcgagagata ttacgtgaaa 360 ctattgcaca ccgcgatcag gcagtcgact tgaagttgcc agattcaaat ggttagag 418 583 150 DNA Arabidopsis thaliana 583 ggagttcctt cgatttaggt gactaactat caagtagata tttttctaac ttttcctttt 60 gaacatttta gaaacttgat tctacagaca acattatata gctagcatcg gatgcaacat 120 agattacaat taatttacac tagacgactg 150 584 326 DNA Arabidopsis thaliana misc_feature (1)...(326) n = A,T,C or G 584 cgacgacggt tacactcaaa tccttcaccg gacttcgtca atcatcaacg gagcaaacaa 60 acttcgtctc tcatgtaccg tcatcacttt ctctccctca acgacggacc tctctccgag 120 taaccgcagc cagagccact cccaaactct ccaaccgtaa actccgtgtc gccgtcatcg 180 gtggtggacc agcaggcggg gcagctgcag agactctagc acaaggagga atcgagacga 240 ttctcatcga gcgtaagntn gacaattgca agccttgcgg tggcgcgatt cctctctgta 300 tggtcggaga attcaacttg ccgttg 326 585 277 DNA Arabidopsis thaliana 585 gccgcccttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttctacaaa ttccaaacaa agaattcttc taactagtcc tcatcaatag 120 cttctacaaa ctcttctctc acacaagtca atttttacac aaccaacagt caaaaaataa 180 atcctcaaca atgtatttgt aataacccaa aactacaata acaagtaaaa agaatgttgt 240 tgacttacac aaactcttca gaaaaagctt gaatctt 277 586 408 DNA Arabidopsis thaliana 586 gccctttttt tttttttttt tttattgcaa ataaagtagt ctctaaaaag catactcatg 60 aaactaacta tcgattctaa tggatacaaa actcctctgc tcagaaacat aaagcaacca 120 tgggaacaac attaatggaa caaaatccat aaaatcgaga aatgatgaag taaaaaaaaa 180 aggcgaaggg aaagggaaga agattacata ggtattaagc tgtctaacga agctggagaa 240 attattatgc ttaaagttct taggaagaag atcgcgagcg aactccggtg gtttccaaac 300 gataaaactg ttgttattag cactccaaga gacaatcgaa tctgtattgt gatcatcaac 360 catatcatag gtcttgctca gaaacggagg aggcgcgttt gaacttag 408 587 297 DNA Arabidopsis thaliana 587 cggccgccct tttttttttt tttttgaata cgatcttagt gttggttcgc tttattaaat 60 tccattgcgt ctttgaccat cattattact cacaagtgta ttttgcaagt aatcaacatt 120 tattagattg atcacactca cacatgtggc attacccatt attagattga tcacactcaa 180 cacaattctg aattctgttc cgatttccat agaaatcctt gatttagcga aaaaactaaa 240 cccagatatc tgaggtgcag tcgccacccg gatatctcat ctcgtgagcg agcgaag 297 588 318 DNA Arabidopsis thaliana misc_feature (1)...(318) n = A,T,C or G 588 aattagcgtc aaatacattt cattctttca atctgtgatt cctgatgcaa tgcatatttt 60 tacatgtaac caanacnncg agaaatgaaa taaaaggcaa agaaacaaaa caaaaagttg 120 agtaaatccc aaaactgtgg ctacgttaaa tgaaatgaag gaatcatcaa ctcagcttca 180 tccacttccg tttcgccttc tctatagctt cctctttcat tctaagcagt cgttgacacg 240 attggttata ttgtgactct atcacattca gctccgtctt cagatcctcc gactgcttgt 300 ttgacaccat tgagcatg 318 589 276 DNA Arabidopsis thaliana 589 gagagtttca gagttccagg tctcaagaag aagcccgaat ggatgtttca gctccagctg 60 cagagaaaag gaggtatatt gatggctata gctcagctgg atccaggaat agcttgaaag 120 gaaggagatc ccaccgttat gactcggatt ttgggaggag cggatcttgg tcagagagaa 180 gtaaagcttt tgagactgag actggtgacg actctgtgtc tgggcatcaa gaagagcagc 240 cgcttgctga agatattgct agctcggttc agcggt 276 590 403 DNA Arabidopsis thaliana misc_feature (1)...(403) n = A,T,C or G 590 cgtaagcttg gatcctctag agcggccgcc gactagtgag ctcgtcgacc cgggaattcc 60 ggaccggtac ctgcaggcgt accagctttc cctatagtga gtcgtattag agcttggcgt 120 aatcatggtc atagctgttt cctgtgtgaa attgttatcc gctcacaatt ccacacaaca 180 tacgagccgg aagcataaag tgtaaagcct ggggtgccta atgagtgagc taactcacat 240 taattgcgtt gcgctcactg cccgctttcc agtcgggaaa cctgtcgtgc cagctgcatt 300 aatgaatcgg ccaacgcgnn nnnagaggcg gtttgcgtat tgggcgccag ggtggttttt 360 cttttcacca gtgagacggg caacagctga ttgcccttca ccg 403 591 242 DNA Arabidopsis thaliana 591 gaaccgctgg atgtgcatta gccgcaacgc tctctcaaaa cgcaaccgtt ctagtcctcg 60 aacgcggagg ttccccttac gacgatccag cggcaacaga catcggaaac ttcgcaaaca 120 cactcttgaa cataactcca aactcatggt cgcagctttt catctccgaa gacggcgttt 180 tcaactcacg cgctcgtgta ctcggtggag gcacagtcat aaacgcagga ttctactcac 240 gt 242 592 473 DNA Arabidopsis thaliana 592 agagcggccg cccttttttt tttttttttt tttttagtaa aaaagatttt ctggaccata 60 aaacgaacat gatatactgt atcaagaacc aaaaaacaat gacacaaaaa ttaacaagtg 120 ttggccattg attcgatgag caacgcatag ccctctggga caggcgactg cagacgcaca 180 cactcggcta aagcagggac gtccgatgac acgtccagaa actgagccac aaagagaagc 240 agatgaaaat ctgacatctt cttcaccaac ggcaagctct ttgcccggtc cagatgtgtt 300 tttagagccc gcatcgttgc tcgactgctc cggttctcta ttgggaatat tgatgacaga 360 ggcccctggt gatccaagat cctgacgaga acgaggaaga aatcgttatc tacctcctta 420 agatccttca caccaacaac cacctccttc ttcatcttag agagctttgg atc 473 593 484 DNA Arabidopsis thaliana 593 ggatcctcta gagcggccgc cctttttttt ttttttttgg aaaatatcaa aattgattta 60 acaatcataa gtttacaaaa gttacaaatg agaacataac ttatacacta accaaacttt 120 ttctgtatgc gtaacaaaga aactcaaaac atctttctct cttcttcttt tactttaact 180 gagaactata agaatatatc tctgcctttc tataagttta ccaggaacac aattcaaccc 240 gaaaccaatc ctcaggacaa agagaaaccg ttacaaagat gttacctcga acagcaagag 300 aatgtctttg tcccttcgtt ctcgttctta accaagctaa cacgattcac agtcagctcc 360 tctttgtaag aatcagagtt caattgcttt cgactaatgt tgctatagat ctcccgaata 420 accatctcga aagccgtctt tacattggtc gagtccaacg cagaggtctc catgaaaaac 480 aaac 484 594 280 DNA Arabidopsis thaliana 594 tttaaattat gaacatagat gcagcaacaa atcaaaaggt ttggatactc tgaaaacaat 60 aaaagtacat aaacaaaatc catgaaacac aatctagcag gacaggtaag agcttcacac 120 gtttgaatta gaacacacag accccaaaag aacaacaaca gagagaggag aagtcatcga 180 ctgtgaaggc ccattagagc agcgctgatc catagaaaac agcttctgca ggacccgtca 240 tgtagatatg gttgtcttcc tgtttccact ctatctccaa 280 595 458 DNA Arabidopsis thaliana 595 ctagagcggc cgcccttttt tttttttttt ttttttttta agaaatcaac aataatcgct 60 tagcaattgt acagacatta tccccaccac aacataaaca ttggtcccta ctccaaaaag 120 ttttaaaaaa acccattggt ccaaaggaaa tccacacata actttagtat acacatcgaa 180 tccatcttac tactttaacc ctccccataa taaaaaaaaa ctaaaaggta acgaaaaatt 240 gacataccag ggacaacatg catcctcttc tttatctttt taattaatta gattggatgg 300 attatatata taattttgaa aagatggatt ggattaacat cgtgatcctt ttctacaaaa 360 gagtgcacca gcattggacg tgactgaagc caccaatgag gacggtctag ccgacaaact 420 cgaagcctta gcatagcttg aagaggctcc tccacccg 458 596 403 DNA Arabidopsis thaliana 596 cccttttttt ttttttttga acttggagat tttgcattaa tggagaaatg atagagatgt 60 aatatactat tcatctagaa agccagattc agaggcaaaa gactctaact ctttagattt 120 ctcatcagtg aaaccaagag ttgccagtat cttgtgacct ggagattcaa cttcagacca 180 aatccccagt agtatatgtg ctggcattac ttccccgata ccacctgctt ttagattctg 240 atccagagca gagtcaagtg ctctttgtgc atcttgagtt aaaggaggat gttccgggct 300 aaagaaatac atatctgcct ttcctagtaa cttgaccgtt tcttcacgca ctttgtaaag 360 cattatctta ttagcccgca aaaactttga agtaaaacta gtt 403 597 290 DNA Arabidopsis thaliana 597 actcaaaacg acggcggaga aaaatcaatc ccgatcaatc cagttcaaac ccatgtagtc 60 cccgagcatc gtaaacctca aaccccaaca ccaaaaccca tgactcaacc aatccatcag 120 cagatttcaa caccgtcttc aaatccagtc tcagttcgag atccagatac gattttaggt 180 aaaccattcg aagacatcag gaaattttac agcttgggga aagaattagg tcgaggtcaa 240 tttgggatta cgtatatgtg taaagagatt ggtactggta acacttatgc 290 598 426 DNA Arabidopsis thaliana misc_feature (1)...(426) n = A,T,C or G 598 atcctctaga gcggccgccc tttttttttt tttttttttt gttagtaaac ggtatagatt 60 caagaattag tttctgtata actgttatgt acaacaccat gtggactgaa tacatccgat 120 gagtatatat acgaagtaca aacaccaata tacatttcaa acaacagcat ggttgtagtc 180 atggtaatgg aatgtcttgt agatgaagtg tgatagccac tttgaagctg caaaacttaa 240 aacagccgcc acaagcactg caattctagc cacattcgac attgtcgttt gcttcaacac 300 cgccatgact ccgatcatag caacggatgc gatttgtaag atcacctcta gcgcattgag 360 atatttgnnn gctttcttgc agctgctgca gttctcaaca tgcgaccaat acctgtcgaa 420 gagctg 426 599 462 DNA Arabidopsis thaliana 599 tctagagcgg ccgccctttt tttttttttt tttcaaaatc ccacaaaata tttgtcagac 60 agcgagttcg aacaatatta agaatcttgt agctccacaa attaatatat atctcatttc 120 aaagtacttc ccaaaacatg taaaaacaat caaagattct ttccatcatt cactacacag 180 aaggtaacca aattctcaca ccataatgta cagggtaaac ctccaaaaga acataatctc 240 tcagtggccc ttgcttcgtg gatcttcaga gtgcatagcg ttgtagtctt ttgtgtaaac 300 ccggtgcctc ctctctctcg catatataac ccaaaacacc aaagatgaca ttacagaagc 360 agacaccacc acaagaccca catagatcca ttgtgtgtat ctcttaagtc ccggacaatg 420 atccctctct atatcagtga atgtagacct cacgaagtca ca 462 600 455 DNA Arabidopsis thaliana misc_feature (1)...(455) n = A,T,C or G 600 tttttttttt ttttttttaa gagatgatta agaaaattac cttgagattg aaagagtaga 60 tgacaaagtc aaaggaagaa gagatagtga gatgtagaat cgcaagcttt agttcttcaa 120 tcgagacaat agcttttaag atctgtcgtt ttcctctctt acaccgaact tttaagctca 180 catggttctg tatcaccgta gcctccactt ctgtcgtatc tccaccgccg aatctcgccg 240 taaatccatt ttccgacgtc gnnnnncgct agaaatagaa gagttagtgc atgcaagaga 300 cgaagatgaa gaacacgacg ccgttttagg agtttcatca gttccatcct ttcgtttctc 360 agcttctaga gattgcaaga gttgctctag ttccttgatg aaatctattg cccctcctac 420 aatcgaagct tggtcacccc gttgaagaaa cgaag 455 601 428 DNA Arabidopsis thaliana 601 ttacagtgtt acctattctc tatcacatta tcaaaatccc aaaatggttc ctcaaaaact 60 ctgatttgcc atatccaatt attcttcatg acctttccca ataaaagaga gtaataatta 120 cagagagatc taatgtttat cctatatgag aaaaagtacc tgtgtgtgtt tcacagtttc 180 atcatacatc atcatgctca gagtgttttg gtgcggtcat atgtagatag gtttaatatc 240 atttggtcca aaacttgctg agcatgttgg acacttcttt tgtcgagttc ctgtgagctt 300 ttgcacacat gggttgcaga acaaatggta gcacttcgta atcaccacct cttttgggcg 360 atcgttgcag gccttacact tcagaatttc tttaaattca ctgagttctt gtcggagctt 420 ttgaatgg 428 602 442 DNA Arabidopsis thaliana 602 gttatattaa aaaaattcat atacatatat caaacatata aagatgataa agtagatgct 60 ggagagagac tttcttgcat tggttgaata tctttgaggg aagaaacgac gtcgtttagt 120 tgcatctctt tttcgaggtg aaagcaatag ctctcgaaaa ctctaaaact cacagtaact 180 ctaaagtcaa gaagaaagag aagctccaac tccattttgt tcaagtctgc attgcttacg 240 cctccaaccc gagcatagaa ctcgttgttg tagtgcacgt catctagtat cttggcagca 300 atcatgacac aagtgacgag gagtctatga acattcaagg agacaaccaa agaaccagga 360 tgcttatgag ccaaccggtc tatgtacaca tacccaacaa cgaaacatgc cgggctacat 420 tttgtgtact tatatatcct ct 442 603 393 DNA Arabidopsis thaliana 603 tttttttttt tttttttttt tttttttgaa taatggatct tcttcttctc tctccagtca 60 aaaagaactt tgcacaaatg aatttatcaa atcaatagtt acaacaacga agaaaatgta 120 caattttcca ttctttgcat tacatatgtt gcagtcttgg ttgtttcatt gggggtgaac 180 tatctttgtc ctttaacggt ttagggctat ctccatcttt tgttttgttc cagagagagc 240 tgatgaattg ggctgcgccg cttctagaga gagtacactc ttgtaaaatt catacgaagt 300 aaagaatatg gctccttgcg acatgtacat cactagtctg gggatcaagc ctctgtatag 360 tcctctcaga ccttcttgcc tgcgtattga ttg 393 604 205 DNA Arabidopsis thaliana 604 tttttgggat aaaggcttcg actttattga gatttagtag tgaagacaag atctatagta 60 tatagtacag agacaatatg taaatttggt gccgtcgatt gcagttcaat taaacagtta 120 cagacaatag agagacagat agagagtaac aaaactcaag aagagcgttt ggcatttgaa 180 cagagattgt tccagagata gcgac 205 605 438 DNA Arabidopsis thaliana 605 tttttttttt gtcaaacctt gttttcattc attcaaatag aaacaagtac aaagaaaaga 60 gtttaaaaaa ctcaaaaatt acaacaagac aagaagaggc attccccaat accaaagaaa 120 gatagatagt gtttaacgat ttaaaatcca tgaaagcatt gaggcaaggg caaagtagcg 180 cattgcaaca tgagaggtca cggtaaatcg agagatcatc ctcgaagggt tcgaagaacg 240 acagattagt cacggtcgaa agacatagtg acgttgataa acgaatcaat gatatgattc 300 tcgccggagc aagctgcatt acccatagta acacgatacc aatgattcgg gagactatgg 360 tgctatagtc aggtgagggt ggttttaaaa tccaaagcaa atgcgggtct ctccggtcaa 420 atgcggcaaa gacggtga 438 606 433 DNA Arabidopsis thaliana misc_feature (1)...(433) n = A,T,C or G 606 cctctagagc ggccgccctt tttttttttt tttttttaac aatgaaattt tgtgaaacta 60 caattaaaag ttcaaaggta tttttttttt ttggattaca acattaacct atggagtctg 120 tagccatttt ttaatttaac ttttggccca aataatactt ctgccaagtc tatacaagaa 180 caaaaacttg aactctgtta gagcggtgag aaatgtcttg atttgaagct gcataatctg 240 tactggttta ctctgtctgg tcactgacac ggaatagctc gatgagcgtg tttcggattt 300 tgattctcag agcagaggct tcatcgggtc taaaccactt cttgtcgnnn attcccaggt 360 ctttcctttt cagcctttga ggcgcctctt caatgaaccg tttaatgaag aagagcacaa 420 acggaccaca atc 433 607 402 DNA Arabidopsis thaliana 607 ttttaaataa aacacctcat tgaatactac aattgtttat gaaatagaca actctaaaca 60 aatatataca acaaaacaaa attgattttt caacatttta caactaaatt tagatctagc 120 gactacgatg cgaagaactt ctattagaga tagagtcagg aggagaaagt gagattgaag 180 aatcacattc acaatcctca agatcttcat atccccaaaa ctcttcttta acttcttctt 240 cctcttccat tttccatttc tctttctcta tatcttctcc ttgtagtact tctaagacct 300 cgatcatgga aggtcgacat agagaagaag atcggatgca gagagacgcg gcgaaagcaa 360 tgcgatgaag ttgttgcaga tcaaattctt caccgatcct cg 402 608 221 DNA Arabidopsis thaliana 608 aaaattctta gatactcttt acaagaaaat cttgacgaaa cttgaagaat acaagcatgg 60 aatccatgac aatgataatt ctgcaaagct taataatctt tattaccatc ctctttttca 120 aaaaacagaa aagagggaag aaaagcaaca cacctcggtc accaccgaga cttccattga 180 tcggaaacct tcatcaactc ggccaccacc ctcaccgatc a 221 609 127 DNA Arabidopsis thaliana 609 atcagagagc atcatcatgt acggaagaga tccatgggga ggtccattgg agataaacac 60 tgcagattcc gccaccgacg atgatcgtag tcggaattta aacgatttgg atcgtgcggc 120 tctttca 127 610 423 DNA Arabidopsis thaliana 610 tttaaattaa aaaccaggac catttctggt agattcaaag tatatcacag tattgaagca 60 ggacaggtac caaacaaaac aaaaaaaagt agatagatga aacaacaact taaaagagag 120 atgttccctt tcccttcttg tctccaccga tctcaaagtg cttgcacctc ttaatcgggc 180 gttgcgagaa atgcttgcag ctttggcatt gaagcctcag cacaatcttc ttagttgtct 240 tagccttctt gtggaagacg ggcttggtct gacctccata accagattgt ttacgatcat 300 aacgacgctt tccttgggca gcaaggctat ctttaccttt cttatactgc gtcaccttgt 360 gcaaggtatg cttcttgcac tccttgttct tgcagtaagt gttcttagtt ttcggaatgt 420 tca 423 611 455 DNA Arabidopsis thaliana 611 cgcggccgcc gagattgttg tattctttat tcaaaaagtg gaaggaaaat aaagaaatca 60 tcatttcttc ttgaagagga agtgtgcaat catccactcg tctccattgt tgtatgcgaa 120 aagctcagca agcgcgatga agaaggttct ccagtaaacc gtccacttca ctgcttcttc 180 tttcccataa gtcacttcca ttatctcttt tacggcaact atctccttat ccattccttt 240 cagccactct tcacttgtct ttgcataatg cgtcccgtta acgagccaat gatccataat 300 cgaaacattt tcttggaaat ataggagaag atctgctgat ggcattgttc ctccgctgaa 360 gaagtgtctt gtgatccagt catcgtcatt cacatcctca aagtggtaag catatgtctt 420 atggcagaga tagtgaacaa acagaagact atctt 455 612 414 DNA Arabidopsis thaliana 612 ggtatcgata agcttgatat cgaattcgcg gccgcttctc ctcctccgcc tccgcctcca 60 ccgccaccgc caccgccgcc gccgacgact tttctcactt actcaacacc agagatcttg 120 gtttagtgtt ataatggaag gtgttggact aagagctgta ggatcacact gttctttatc 180 tgagatggat gatcttgatt tgactcgagc tttggataaa ccaagattga agatcgaaag 240 gaagagatcg tttgatgaaa gatcgatgag tgagctatcg actggttaca gtagacatga 300 cggtatacac gattcgccgc gaggtagatc ggtgcttgat acgcctcttt cttctgctag 360 aaactccttt gagcctcatc ctatgatggc tgaagcttgg gaggctttaa gaag 414 613 465 DNA Arabidopsis thaliana misc_feature (1)...(465) n = A,T,C or G 613 tcgaattcgc ggccgcgttg cctcaagctt ctcctagatt tgagatttct aatggnnnng 60 gttctggttt ggtggctacg gttaaccgtc aacaaccggt tagtgttagt gattttgatc 120 agagatcgag gtatttggat ttagctcttg cggctatgga tgagcttgtg aagatggctc 180 agacacgtga gccgctctgg gttcgaagct cggattctgg ttttgaagtg ctgaaccagg 240 aagagtacga cacaagtttc tctcggtgtg ttggaccaaa acaagatggg tttgtctcag 300 nnncttctaa agaagctgga actgttatca tcaatagctt agcgctcgtt gaaaccttaa 360 tggactcgga acggtgggcg gaaatgtttc ctagtatggt ctcaagaact tcaaccacag 420 agattatctc tagtggcatg ggagggcgaa atggtgcact tcacc 465 614 270 DNA Arabidopsis thaliana misc_feature (1)...(270) n = A,T,C or G 614 aactttctcc gtcgtagcta tggctcccca gaaaaaggtg aacaaatatg atgccaagtg 60 gaagaaacaa tggtacggag ctggattgtt tttcgaaggg agtgagcaaa taaacgttga 120 tgttttcaag aagctggaga agcgaaaagt gttgagcaac gttgagaaat ctggcctgct 180 gtcaaaagca gaggggttgg gactcacntt gtcatctctt gagaagctta aagtcttctc 240 caaagcagag gaccttggtc ttctcagtct 270 615 557 DNA Arabidopsis thaliana misc_feature (1)...(557) n = A,T,C or G 615 cggtatcgat aagcttgata tcgaattcgc ggccgcctta cgtacataaa actttacaag 60 agtttttcac acctgaacgg gttacacact tacaacaaac acacatcctc taaaacatgg 120 acgcatgttt anactctctc tcacaacata caagaacaaa caaacaaaaa ccaaaccaag 180 attttaaaac caatcgactg gtcaagtagc aactaactta tttccaatcc agaccaagaa 240 attcgaatct gatccatttt aagtggagag gatgttaaga agagagactc tagcttgtat 300 cattaccttg aacaatcctt caagtccctc ttcaagctct tccatggctg cctctacacc 360 ttcggatcta accaatgcac attgaaccct ctcagatact tcttcactaa tctttttctc 420 ttcttcttga tcttcccttg tcatcatcac aacgagcttc ccaagctcag attccatagc 480 ttcaagcacg agacaagaaa atcccgtctc gtaatctctt ttctcctggt gatgatgttc 540 tattcctttc ttcacaa 557 616 385 DNA Arabidopsis thaliana misc_feature (1)...(385) n = A,T,C or G 616 caattgacgc agctaacatt ttaaaaccag ctctcgctag aggtgaattg cagtgcattg 60 gagcgacaac attagatgaa taccgaaagc acattgagaa agaccctgcc ttggaaagaa 120 gattccagcc agtgaaagta cctgaaccta ccgtggatga aactattcag atccttaagg 180 gtctgcgaga gcgatatgan nttcaccaca agcttcgtta cacagacgaa tctttagtag 240 cagctgcaca gttgtcatac cagtatataa gtgatcgttt ccttcctgac aaggcaattg 300 acttgattga tgaagctggt tctcgggttc gacttcgtca tgcacaggtc cctgaggaag 360 ctagggagct tgagaaggag cttag 385 617 443 DNA Arabidopsis thaliana misc_feature (1)...(443) n = A,T,C or G 617 cggtatcgat aagcttgata tcgaattcgc ggccgctgag gatgcttctt ttggttttgt 60 gttttctatg gatcttgagt cagnnnctgt ccctgcttca cttgtttatg agatcgagcg 120 tatacttaag cccggtggaa ctggggctat gcttgtcggt actactagtg ggtctgactc 180 taacgagttg gttagatccg tttcgcctgt ttcttcattg ctgaagaact caagtgttgt 240 tcatgttgct tcattgggta aacaggtttt ggttgtattc aaaagagatg gagaagatag 300 tttccgcttg gatcaaactc atcatgactt tcctgctgat tgctcgtctg ttctcaacaa 360 ccggccatac attggattat tggnnnctct tctggatgaa aaacgttcgg atttcgagag 420 acggattcat tacttgcctg agt 443 618 176 DNA Arabidopsis thaliana 618 aggtggaagc atccatagaa attatgatct tctgctgcga cacaatttgc atattgtagg 60 cgaagtcaag ctagctgttc ggcactgttt gttggctaac cacggtgtaa atattgaaga 120 tttgagaagg gtgcttagcc atccacaggc tcttgcccaa tgtgaaaaca cgttaa 176 619 189 DNA Arabidopsis thaliana 619 ccacactaat attcaaacac attgactaca ctctatcttg tctctttaca ttcaagtaga 60 gaagaacaaa gatcaactct ggtttttcaa acctttaacc actcaagaca gggacacaaa 120 ccccaacaga atcttgctgg gtaataatct ttcaagtata tctccttacc aaaaccgatt 180 atgtaaaag 189 620 221 DNA Arabidopsis thaliana misc_feature (1)...(221) n = A,T,C or G 620 gttcatgcat aacttccata ccaaggttag cacggttaat aatatcagcc caagtattaa 60 taacacgtcc ttgactatca actactgatt ggttgaaatt gaaaccattt ngnttgaaag 120 ccatagtact aatacctaaa gcagtaaacc aaatacctac taccggccaa gccgctaaga 180 agaaatgtaa agaacgagaa ttgttgaaac tagcatattg g 221 621 479 DNA Arabidopsis thaliana misc_feature (1)...(479) n = A,T,C or G 621 tctagagcgg ccgccgtaga tttcatctga taataggcaa aatctttgcc aagacaaagg 60 cgtggaccac cgttaaaggc tgtgaatttg tagaccgact cactcatgaa ccgtccgtct 120 cttagccacc tctctggcct aaactcaaga cagtcttttc cccaaatagc ttccatacga 180 cccattgcgt aaatcgcgta tataactttg tctcccttct tcaacatagt tccatcagga 240 aatacgcgga cgcgtgggtc gacccgggaa ttccggaccg gtacctgcag gcgtaccagc 300 tttccctata gtgagtcgta ttagagcttg gcgtaatcat ggtcatagct gtttcctgtg 360 tgnnnttgtt atccgctcac anttccacac aacatacgag ccggaagcat aaagtgtaaa 420 gcctggggtg cctaatgagt gagctaactc acattaattg cgttgcgctc actgcccgc 479 622 554 DNA Arabidopsis thaliana 622 attcgcggcc gcgtgaatct acctgcatca aagcgtggta accctcgtca atggcgtctc 60 ctcgacatcg taaccgctgc tttcttcggt atcgtacttc tcttcttcat ccttttattc 120 actcctcttg gtgattccat ggcggcttct ggtcggcaaa cgctgcttct ctctacggcg 180 tcagatccga ggcaacggca gcgattagtg actttggttg aagctggtca gcatttgcaa 240 ccgatcgagt attgtcctgc ggaagctgtt gctcatatgc cttgtgagga tccgagaagg 300 aatagtcagc ttagtagaga gatgaatttc tatagggaga gacattgtcc tttgcctgag 360 gagactccgc tctgtttgat tcctccgcct tctggttata aaattcctgt tccgtggcct 420 gagagtcttc acaagatttg gcatgcaaac atgccatata acaaaattgc tgaccggaaa 480 ggtcatcaag gatggatgaa aagggaaggg gaatacttta ctttcccagg cggtggcacg 540 atgtttcctg gcgg 554 623 669 DNA Arabidopsis thaliana misc_feature (1)...(669) n = A,T,C or G 623 tcgaggtcga cggtatcgat aagcttgata tcgaattcgc ggccgcttcc gatttcgatt 60 cgattttagc ggcgatgtct ctcagaccta gcgcgaagac ggaggtgcga cggaatcggt 120 acaaagtagc ggtcgatgcg gaggaaggac ggcggaggcg agaggataac ttggttgaga 180 tcaggaagaa caagagagag gaaaatttgc agaagaagag atttacgtct tctatggctt 240 ttggctcagc aacgggacaa acggaacagg atctttcttc agcgaaccaa ttaaaagata 300 atctacctgc tatggttgct ggaatctggt cagaggatag caattcacaa ttgnnnnnna 360 caaatctctt gcggaaactg ctttctattg aacaaaatcc tcctatcaat gaagttgtac 420 aatctggtgt tgttcctcgt gttgtgaagt ttctttccag ggatgacttc cccaaacttc 480 agtttgaggc agcttgggcg ctcaccaaca ttgcttcagg gacatcagag aacacaaatg 540 tcatcattga aagtggagct gtcccgatat tcatccaact tctcagctct gctagtgaag 600 atgtcngcga acaggctgtt tgggcattgg gaaatgttgc tggagactca ccaaaatgcc 660 gggatttag 669 624 101 DNA Arabidopsis thaliana 624 tatcgataag cttgatatcg aattcgcggc cgcaaatctg caaccttttg gaattagtta 60 tcaagctcct ccttcaaata tggactctga atatatgcct g 101 625 601 DNA Arabidopsis thaliana 625 taaaaagata cagagaaagc ataattcagc aacttcagag ctcaattccg cttcttcaac 60 catcgaaaac cacaatatct cttgaatcag ctgctacaag tcgcagatct gagctgctag 120 ccaatttttg cgataattcc cgcgcacaga ttagtaatag aataatttaa aaagaattca 180 aaaaccgtcg aagctctgtc gttcatggag cttcctcaac ctcgtccctt caaaacccaa 240 gaatttcgca cagggagaaa accaacacat gattttttat cgctctgcag tcattcaacc 300 gtccacccag atccaaagcc aacaccacca ccttcttctc aaggtagtca cttgaaaacc 360 catgattttc ttcaaccgtt agaatgtgtt ggtgctaaag aagacgtaag taggattaac 420 tctaccacta cagcgtccga gaagccaccg ccccctgctc cacctccacc gttgcagcac 480 gtgcttcccg gtggtatagg gacttatacg attagcccca ttccttactt ccatcatcat 540 catcagagaa ttcctaagcc ggagttgtca ccaccaatga tgttcaatgc taatgagaga 600 a 601 626 551 DNA Arabidopsis thaliana 626 ttttttttaa tgtgaaatcg aattttatgt tttgaaaatc tgggaattgc tttaaagatt 60 gaagtttgtt ggaatgtctt gtatcaattt tacaatgtgt gttatatgag gtcgatcttg 120 aggttttaag gcaacacaag ccaaacctat ttgcaacatc tcaaccaact cttcttctat 180 acccatttgc atcattagct cattatcgaa tacttctcct gtccactctt tcgacaccac 240 tgaccttatc cagctcgcca agtccatgtt ttcgtctagt gatagcggac tcgcgggtga 300 tttccctgtt agaagctcga gtaacaccac cccgaagctg tatacatcag agaactgtgt 360 ggactttctt gtatctgtta tctcaggtgc gtggtaaccc gaagaacgta aggtagtctg 420 cgggagagat ttcgtgatgt gtgttaagcc gagatcgcag atgcagccgt agcatttcga 480 gttcgtgaag atattggagg atttgatgtt accgtggaca aacttcccgt cgtctgcttc 540 gtggattata g 551 627 494 DNA Arabidopsis thaliana 627 tttttttttt tttttagtga acatataata attaagtttt atatgcatac actatgaaat 60 caataatact taagatcaaa agaaaatcaa attatccttg taacataaat agtgattcac 120 gaaacaaaag ttttgcttgc ttccacatag tctccatagg cgtcttcttc tctgctttcc 180 aagctcttta tcctgcaata cttgtagtag atatactgca gtattataaa tagatctagt 240 acgacgcaga caatagcatc aagcaaccaa ggaaggtttg gtttgatgtt gtcccattca 300 gttgttcgga caagaatact accaacatat gttgcattgg ctactagcgc gaagatgaac 360 atcagtggat tcaaaccctc gacgcttcct cttttgatgt tgagccaaat ctgaggaatg 420 cgaccgccca tgtaaatggc agccattagc catcccaacc attgtcccaa cgcgctatgc 480 tctactattc tttc 494 628 422 DNA Arabidopsis thaliana misc_feature (1)...(422) n = A,T,C or G 628 gtgtttccat tgttgagaat ttagcaaatg aaaacacatt acaaaagcga aatagcaaaa 60 aaaggaaatc aaatcttgct acatttacta aaatacctac attgaaattc tcaaatctaa 120 tttccagaaa cagatctcca aacacaaatc tgaaaaaccc tgattaaccg ccgaatccgt 180 agagagtcct tccttgcctc ttgagagcgt agacaacatc catggcggtc acagtcttcc 240 tcctagcgtg ctcggtgtaa gtgacagcat cacgaattac gttctcgaga aagatcttga 300 ggacgccacg tgtcnnntcg tagatgagac cactaatacg cttgnnncca cctctacgag 360 ccaatcttcg aatggcaggc ttggtgattc cttggatgtt gtctctcaga accttcctgt 420 ga 422 629 477 DNA Arabidopsis thaliana 629 ttttttgaat ccaaaagtag tagacattga agaagataaa cccgagttac tggaataagt 60 tgtgaaacaa gtactacaaa agagcttgaa gggaagagac acaaacaaag aacaaagagt 120 gtttcggagt ttttgatttc ggagttcttc tatctgtctc aatctctcta attgtagacc 180 atatacttgg gagtggcact gaacttttgg taacctttaa tgactttgtt cactgcgtct 240 agaaagtctt tctcagtcac agtctttctc ctagctctga ttgcgtacat tcctgcttca 300 gtgcatacac ttcgaatatc agctcccgtt gagtttgggc agaggcgagc aaggagttcg 360 aaacggatgt ctctttcgca gttcatggtt cttgtgtgaa tcttgaagat ctgtgttctg 420 ctctccaggt caggtagacc aaactcaacc ttacggtcaa gacgtccagg acgtaaa 477 630 600 DNA Arabidopsis thaliana misc_feature (1)...(600) n = A,T,C or G 630 aattcgcggc cgcgaaattt gtcgtccgcc atgaagattc gagcttcgat gtcgactaca 60 acactgaaga tggtcttgag gttttacgat ttctaatctt ctccctcact ttagttcctc 120 ctgaagaaca aaagatcgtt gcggaagatg ataatcgatt ggtgtctgat gagtctgatc 180 tcgcttcttt atctgagaga cttcgattag tttcagttgg agaagattct gtagagaact 240 cagatgcgga aatgttgaaa tcagatgaag aattggctcg aatgttgcag gcagaagaag 300 atgctattat gtttcaacag tttgtcgctg cacgagataa cggcgaattc gaagggagaa 360 ttaggcctta tgttagtcaa gttctcatgt atgaagatcc agtccgccaa gatgctgctc 420 gaaagactgt tcctaaagac gagcttgagg agaaagcatt ggtttctctg gccaaggaag 480 ggaattttga gccatcgaaa gaggaaagag actacgcttt cctgcttcnn cttcttttct 540 ggttcaaaaa atccttcaga tgggtcaatg aacctccttg tgacttttgt ggtaacaaaa 600 631 613 DNA Arabidopsis thaliana 631 cctctagagc ggccgccctt tttttttttt tttgcagaaa atgattcata ttagctcaga 60 ctgtatgaaa cacaaacctc gtgatacaag actgattaag agaatcagca acgcagaaat 120 acttgataaa tcccacaaaa cacaaatggt gaacacacac gaagtaaata cgaaacccga 180 ggaactatat cgacacacac aaagagaaac ggttgttaat agagaagaag agttaccatt 240 ttctttacaa attgtacgtc gaactttccc tttttgccaa cattgttgtt gaatatcagc 300 ttcaccagtg tgtataatga gaatcaagag cggcatgatg ggtttttacg ttcgcaatga 360 ttctttatca tagaaggcaa gaagctgttt gacatggttt tgccaagctg caacactttg 420 accatctaca gtgacccaat ccacaactgt tgatgcaggt tgttcccacc attcatcaag 480 caaaccccta acgtatttgc agtgttccga ggaagcttgc gcattctgaa ctgcagtcct 540 aagttcaggt aaccactggt ccgatattgt attctcttgt tcagaagcta gatctaggca 600 gtagttagtt gtt 613 632 553 DNA Arabidopsis thaliana 632 tttttttttt tttttagaaa ggaagacaaa attatatctt ccttggaaca cattttatat 60 ccatccacaa gtccccccaa cacatgatgc taaactataa attgcaatca aaagttaata 120 tttacagaca gctttctcag attcaaacct ccatttctat cttataaaca aatttttgta 180 ttccaaggcg actcagagag aagaaaacga gcttgtttcc actttcattc actccaccac 240 aacacaccac attgggccta agaaccattc tgcaatccca cgaggctttt tcccggtaac 300 tacaaaagaa gattggcgga tgtttgcttc aggtcaatga ttatgatgat tgtttggttc 360 atataggact tgctttagac acctgatttt tcgacactgt ggcggaggcc cagtcttgtt 420 gaggaccttg aggttgcctt ggaacagttt catagttgac ataagtaatc cttctggtgt 480 cttcttgcct actcacaatg ttttgagggg gtaactcccg caaaacccat aaaacgaaag 540 ccaatgggac ggt 553 633 200 DNA Arabidopsis thaliana 633 ggtgatttcg ctgatgaggc ctctgcaaca acggaatctg acattgaaga gactctcaag 60 aggcttttgc agcttaacaa gactcctgaa gaggtctttg atgctcttaa gaatcagact 120 gttgacttgg ttttaactgc tcatcccact caatctgttc gtcggtcttt gctccaaaag 180 tttggaagga ttcgtgattg 200 634 418 DNA Arabidopsis thaliana 634 ggccccccct cgaggtcgac ggtatcgata agcttgatat cgaattcgcg gccgcttacg 60 ctcttcttca cctagctacc aatatatgaa cgagcaggat caagaatcga gaaattgatt 120 tgagctggcg aataagcagt ggtgggatag ggaattagta gatgcggcgg cgatggaagg 180 cggttacgag caaggcggtg gagcttctag atacttccat aacctcttta gaccggagat 240 tcaccaccaa cagcttcaac cgcagggcgg gatcaatctt atcgaccagc atcatcatca 300 gcaccagcaa catcaacaac aacaacaacc gtcggatgat tcaagagaat ctgaccattc 360 aaacaaagat catcatcaac agggtcgacc cgattcagac ccgaatacat caagctca 418 635 373 DNA Arabidopsis thaliana misc_feature (1)...(373) n = A,T,C or G 635 tatcgataag cttgatatcg aattcgcggc cgcctggata ggaaattatt tgtttaaaac 60 ccaaaatgat gattcttgaa aacaaaaata cagatacaac acaagtgaag aaaaagatgc 120 aaaagaagta gagcaagacc aagaacaatg aagattanna aatttacttg ggaaaaattt 180 ggctcaggaa ttttggaaac tgtttttgac ttctcgtctt cgcttggcgt cttataaggt 240 caaactatct ggattctcaa tgatctttgc aaaggtttgg agaaaagcag ccaagtcagc 300 tccatacaca atgcgatgat ctgcagtcac attcaccagc attgtgtttt ttacactgaa 360 gaatccatcc tta 373 636 219 DNA Arabidopsis thaliana 636 caaaatggat ttttctcagc ttcaaagcct ccgtttcagg gataaactgg aaaaaaaatt 60 gattcaagag agaatcatga aaactaaaaa cggaggggat tacacaatct tcaagttatt 120 gttactctcc ttcatgggta atagcctgtg aaggtgaatc ctctgccggc gatttcacct 180 gcgcaatacc atgcaaagca ttcgagacca aacaatgca 219 637 229 DNA Arabidopsis thaliana 637 aaaaaggtac aataaaacca agccaaaaca cacactcaat aatagcttaa agcctcaaaa 60 ggtgatacaa gaaaacaaca tagagtttat ttgggtcgta taataataat caccaaaatc 120 tcattcagag ataaaactaa aaggatgatt tgtgcgactt ctagatttag ttgaagtctg 180 gtttctcagg gtaagtgcaa ccagacctct ggatcactac gtttgacgc 229 638 240 DNA Arabidopsis thaliana misc_feature (1)...(240) n = A,T,C or G 638 ggtatcgata agcttgatat cgaattcgcg gccgcccaag acttatgcat tctgggggat 60 tggttctaga gcttaaaaat aattacaata agaatttcaa acagactaaa aagcctataa 120 cccatcatct aagttaaggc attaaaaagc acatgtataa ttaganncaa aaacagaaga 180 aacacactcc atggatgggt ttgagatgga ttcagctcaa agcatgtgct caaatcctcc 240 639 214 DNA Arabidopsis thaliana misc_feature (1)...(214) n = A,T,C or G 639 ttcgcggccg cagaggatta aactatcttc atacacatga ccctcctgtg attcatagag 60 atctcaagtg tgacaacatt tttataaatg gnnaccaagg agaagtcaag attggagatc 120 ttggtcttgc tgcttgttta caacactctc acgctgctca ttgtgttggc acaccagagt 180 tcatggctcc tgaagtttat aaagaagaat ataa 214 640 302 DNA Arabidopsis thaliana misc_feature (1)...(302) n = A,T,C or G 640 gtggaggaga agaagaagag gagatgggtg ttttgggata gaaggtggag gagattagat 60 tatgtgaaat tctcagcttc tttcactgtt cattctcttg cnntcttggc tccgttttat 120 ttcacttggt cggctctttg ggttacgttt ttgttttaca ccatnngtgg tcttggtatc 180 accgtctctt atcatcgcaa cttggctcac cggagtttca aagtccctaa atggcttgag 240 tatctcttag cctattgtgc ccttctcgct attcagggag atccgattga ttgggtgagt 300 ac 302 641 416 DNA Arabidopsis thaliana 641 ggccccccct cgaggtcgac ggtatcgata agcttgatat cgaattcgcg gccgcgctaa 60 agcaagatat gaaaagacca gattcaaaat cgttgatttg gatgattacg cggctgatga 120 tgatgagtat gaggagaaat tgaagaaaga ggatgtggct ttcttcttct tagccacata 180 tggagatggt gagcctaccg acaatgcagc gagattctac aaatggttca ccgaggggaa 240 tgacagagga gaatggctta agaacttgaa gtatggagtg tttggattag gaaacagaca 300 atatgagcat tttaataagg ttgccaaagt tgtagatgac attcttgtcg aacaaggtgc 360 acagcgtctt gtacaagttg gtcttggaga tgatgaccag tgtattgaag atgact 416 642 265 DNA Arabidopsis thaliana misc_feature (1)...(265) n = A,T,C or G 642 tcgtcgaccc gggaattccg gaccggtacc tgcaggcgta ccagctttcc ctatagtgag 60 tcgtattaga gcttggcgta atcatggtca tagctgttnc ctgtgtgaaa ttgttatccg 120 ctcacaattc cacacaacat acgagccgga agcataaagt gtaaagcctg gggtgcctaa 180 tgagtgagct aactcacatt aattgcgttg cgctcactgc ccgctttcca gtcgggaaac 240 ctgtcgtgcc agctgcatta atgaa 265 643 247 DNA Arabidopsis thaliana 643 ctttgtcctt tcctcttaca aacatataca aaacactctt gaccatacaa ataaaatgga 60 ccagtttctg aagtcaatac agatataata gtgtaggtaa ctcactcttc aagtttcagt 120 caatgatgtt gcggctgttc aattggtcct cgaatcggct acacgaacca actctcatct 180 ctgtgctcat atcgttctcc ggcgccggat aatagtctgc tctaagctgt acatccctta 240 agtttgg 247 644 346 DNA Arabidopsis thaliana 644 ttcgcggccg ccattttcag gtttcagcaa aaccactctg tttttctttg tcttttacgt 60 cacagtattt gaaaccctct ttgtgaaaca gaggttccta cgctgtacac tgtctatgaa 120 cggatgtgag gctgaccaca aagcaccact tggcacggta gaaacaagga ctctatcaac 180 ggtgccatct ccggcagccg cgacggagag gctgataacc gccgtctctg acctcaaatc 240 tcaaccgcct ccattctcct ccggcattgt ccgattacag gtaccaattg agcagaaaat 300 tggagcaatc gattggcttc atgcacagaa cgaaattctt cctcgc 346 645 526 DNA Arabidopsis thaliana 645 tttttttttt tttttttttt gcgagaaagt ggagtcacca gtgtgaattt aatctttgat 60 acaggtgcaa cacgaataca attgattaca tcatttcgtt taacagagtc tctgctcata 120 ttcatatgag taggtaggta taacaacaac tttgcaaagt aacgtccgat aatacattac 180 atacatacat gcatatatcc atccgcattc tgcacaaaca gagagtaggg tgtagcaaat 240 ttactgtttg ttgcggcgga ggaggcgttc caaatggtgg aactgagcct tcaaggcggc 300 atggtcttgt cgcatcctct gcaaacgatc ctcaaccatc atcatctctt ccctcaggaa 360 atgcattctc ttctctaacc accccaaagt ctccccgttt acactgtact cgtcgtacct 420 ctcatgatac tccacttgcc cccctcctcc ttttttcagt agcaccacta tcgtcacctg 480 catcagtaag attactgcaa acgctaatac tataacctgc cttgtc 526 646 391 DNA Arabidopsis thaliana 646 cggtatcgat aagcttgata tcgaattcgc ggccgccgcc aatatttggt accgatgagt 60 ttggatggtg cacagagtgg aatccagcaa tgtcaaagtt aaccggtttg aagcgagagg 120 aagtgattga caaaatgctc ttaggagaag tatttgggac gcagaagtca tgttgtcgtc 180 taaagaatca agaagccttt gtaaaccttg ggattgtgct gaacaatgct gtgaccagtc 240 aagatccaga gaaagtatcg tttgctttct ttacaagagg tggcaagtat gtggagtgtc 300 tgttgtgtgt gagtaagaaa ctggacaggg aaggtgtagt gacaggtgtc ttctgtttcc 360 tgcaacttgc cagccatgag ctgcagcaag c 391 647 524 DNA Arabidopsis thaliana misc_feature (1)...(524) n = A,T,C or G 647 tttttttttt ttttttggcc caaatgttta tttttcataa aagcgtgcaa tcaaagatat 60 atagagcaag aaaacatgaa tcaaaacact acaaattgtc gttaacagga agaaaaagca 120 cacgtttatt agatgtagac gtaaaagcaa acaaataatc gagacatgat cctctcgatg 180 catcaaataa tcgctgaacg aagaagactc tccacagatg tttaaccaat ataaaaaaaa 240 ctccagactt gagtagttcc cataaatgaa gtggcgagac acagagaaca attgtagacg 300 tcgataccaa acaaacccaa tttgaccaaa cctcttaaga aactttaaaa ctcaaaacca 360 gacacaataa aatcaaagaa gagtcggaca tgaagtaacg gacatagtga caatacaacc 420 cgggaatgaa tannnagcaa cgctctggat aaatatgtct atgtnaggtc atcctcctct 480 agctccttgg ccttgagctt ctccttcacc ctcaacaaca tggt 524 648 279 DNA Arabidopsis thaliana 648 ttcgcggccg ccgctgaagt cgaagaggac cccttgccta atgaagtaac cgatccaaag 60 tctgagttcc tggagaaaat tgaccttctt ttggctgaac ataaagtgga tgaagcactg 120 gaggcaatgg atgctgagga aagaagcagt ccagatctta aaggatcagt cgagatgtct 180 tcttacaagt ctgcctttat ggaaagaaag gcggttcttg aggatcagct ccttaggatc 240 gctaaacaac cctcgatttg tgtagctgaa ttgaagcat 279 649 353 DNA Arabidopsis thaliana 649 cggtatcgat aagcttgata tcgaattcgc ggccgcatta taggtaatag actgagtgtt 60 agcatctcta gggatgattc ttctgatggt aaaaagccgg tgtctgctct atttcgagcc 120 aaatctgcga agtcgagttt gagtttggat gtaaaaaaag aatctttggg gaagctcaag 180 acttcttcgg gttctaagtc tattccttct tcgccgacga gttgttactc actgcctaat 240 tcttttgcaa agtttgctaa tgggattaag cagcaacaga ctgtgaagcc aaagttattg 300 gagaagggtt ctcctagaat ggggttgtca gagaagggcc ggtctcttct taa 353 650 483 DNA Arabidopsis thaliana 650 gcatctgtta agtctttcga atgcatcgag acgtaaaaaa aaaaaaagta aaggaagaag 60 aaaaatttag gcatataact tggtgagatc ttcagagaat tccctcctaa ttacatctct 120 tttcagcttt agagctgctg tgactaatcc tgactctggc gtccatggag atgccaataa 180 tttgatcttt gctggtatct caaacttctc caatcgtgat tgtttagccg ccttcacaag 240 ggacgcatac acttctttca cggcttgctc tttcgtgcac agttcttcga agttggcaaa 300 gtctattcct tgctttgaag cccaaccttc aactgtatgt tgggacgcga ccacaagagc 360 cacacagtaa ctgtagaacg aatcagcatg aaccattatg ttttcaacat agggacttat 420 acttagagca gcttcaactt tgcccaagga gacatattct ccatgctgaa gtttaacgat 480 atc 483 651 367 DNA Arabidopsis thaliana 651 ccctcgaggt cgacggtatc gataagcttg atatcgaatt cgcggccgcg aacacttgaa 60 acattttctg ctctgacaaa acaaagaaga caaattccaa cttaagtcct ctctacaaga 120 gctattcact cttcctaaat tgacacaact taaagcttga gaatctcaga aaatcgatta 180 caatttacac aacttacaat atcgtcaaat tttgggattt tcggggttaa actagtaaaa 240 attattagtt gaagttgaag ctagcagtgc ggctccatcg ccctttcaag tattcctcaa 300 cagagatact actagcttca gggctgctat cagaagctgc atcatcttcc aaatcaagca 360 atgcgag 367 652 105 DNA Arabidopsis thaliana 652 agcagaaaac acatcaaaaa cagtgtccat ctataaagtc catcatgttg gtgagtgtgc 60 taagctcaaa ctcatcctca tgaacccaaa gtgaactcaa gtagt 105 653 495 DNA Arabidopsis thaliana misc_feature (1)...(495) n = A,T,C or G 653 agattactta gctactgtgg atgtggaacc gagttcatcc acatactcga gtgttatcca 60 cagattacca atgccttacc ttgaagatga acttcatcac tcaggctgga actcatgtag 120 ctcttgctat ggtgattctt cttgcgagag acgttatctc atcttgcctt ctcttctgtc 180 tggtcgtatt tacgtgatcg atacgaaaac aaacccgagg gaaccatctt tgcacaaatt 240 cgtggaccct gcagaggttt tggagaagac ggggttggct tatccgcatc agcctcattg 300 cttagcttcc ggagnnnnnn cttgtgtctt gtcttggaga cgaagatgga aacgcagaag 360 gcagtgggtt tctcttactt gattccgagt ttaacatcaa aggaaggtgg gagaaggatg 420 gaaacagtcc tttgtatggg tatgatttct ggtaccaacc tcggcataag acgatgatca 480 gtacctcatg gggag 495 654 269 DNA Arabidopsis thaliana 654 tctagagcgg ccgccctttt tttttttttt tttttttttt tttttatcaa gcttttgttg 60 tacgaaacct tcattatctt cttacattgt ccattttctt taggtacaat cttgtctatt 120 ggaacattgt agagatgtgt tctactttac aatcatggat cattgatcca aacattacat 180 gaattgatca ggaaaagtaa attggaaatc acgtagggca gaagagttgg gagagtgaag 240 ggagatccca aatgggatcg gtaggatcg 269 655 155 DNA Arabidopsis thaliana 655 tttttttttt ttagtagtcg gcgtatttaa aaataatatt cccaacgaaa atgaaagtga 60 atccgtgaat ccaaaatctg taagtctaag gcttaagagt agaaagatga ttacattaca 120 gacattataa taagtgaacg aagaggtttt ggaaa 155 656 434 DNA Arabidopsis thaliana misc_feature (1)...(434) n = A,T,C or G 656 gcgaattggg taccgggccc cccctcgagg tcgacggtat cgataagctt gatatcgaat 60 tcgcggccgc gctgtcggca tgttctcctc cactccgccg cactcgtcgt gccggttttc 120 gaacaagctg ctcgatcttc gcgaatccag cacagcgagc caagaggaag ctgcttgagc 180 tgatctccga ggaggatcga ggtctgagaa cccagaaaga ccccaagaag cgagatgaaa 240 tcgtgaacgc catcgaatcc atgacggtta tcgggcgnnn tccatcacca cagacgactc 300 tctatctgcc acgtggcggc tcttgtggac gacggagaag gaacagttgt tcatcataga 360 aaaggcaggc ttgtttggga cgaccgccgg agacgttttg caggtgatcg atgtgaataa 420 acggatcctc aata 434 657 390 DNA Arabidopsis thaliana 657 tatcgataag cttgatatcg aattcgcggc cgcgtgaagg ttagggcttc tgtttccacg 60 gcggagaaag cttcggagat tgtgcttcaa cccattagag aaatctcggg tctcattaag 120 cttcctggct ccaagtctct ctctaatcga attctgcttc tcgctgctct atctgaggga 180 actactgtag tggacaactt gttgaacagt gatgacatca attacatgct tgatgcgttg 240 aagatattgg gacttaatgt ggaaactcac agtgaaaaca atcgtgctgt agttgaagga 300 tgtggcgggg tatttccagc ttccattgat tccaagagtg atatcgaact ttacctcggc 360 aatgcaggaa cagcaatgcg tccacttacc 390 658 179 DNA Arabidopsis thaliana 658 gctaccttac aatcgatcag acaatcctta tgatgcagct gacaagtggc ttctaaaaga 60 gaatctcccc tttgcatatc ggcagcaaat tgttgaattt atattacaaa attctgggca 120 gaaagacttc aactttaatc catcttttcg tgatcccttc accggcgcaa atgcttatg 179 659 133 DNA Arabidopsis thaliana 659 cctcgaggtc gacggtatcg ataagcttga tatcgaattc gcggccgcaa aaaccaaacc 60 tctttcacta ttacactttt cctcaaaaaa aagaaaaatg tatttgttag tgtttaaact 120 ctttctattt ttg 133 660 100 DNA Arabidopsis thaliana 660 ggccgcgatg agcattcaac atataaattt ataaaacgaa gaacaaaaca agagaaagat 60 gcaaaactag atatataaat atatatacac atattatata 100 661 509 DNA Arabidopsis thaliana misc_feature (1)...(509) n = A,T,C or G 661 tttttttaca aacaaatact acgtcaacat tgttttcatt atcttctcta aggcgattca 60 cgacattgaa catagataac ttgctacatt ttttcattta tttatcaagg agagaaccat 120 cgagacgaag aaattctagt ttctgtacaa agccgaggtc ttgttcctgg tatttacttg 180 gagagcaaaa gctgattcta tatagagttg caacttcttt actagctgat ccacctatta 240 agtgactttg tggtcacctt caagctgctg ttgtgtcaaa atctactctt tctccagttg 300 cgtatatgtt gtaaaagaga gcagaaagga gatacaatat tgctgtaagn nggatgaatc 360 cctggaagga gcccaatagt tctacaaaga aaccagctcc aactgtgcca actatcgcag 420 ctaatgtccc agcagtaaga cacattccat gtagaacacc ggaatattcg ggagcaattt 480 cctgaagatt aataagaaac cccaaatgg 509 662 169 DNA Arabidopsis thaliana 662 ttttaatgct tttctaatca ataaatatca aattatccac cagataaaaa taataattta 60 aaaagcgtat tctcaaatcg taacaaaaag ggatattttt ggtgtttgtc acccaaaagt 120 ataacctatc caatgagggt atgaagaaaa ttgagtgaat caaaatata 169 663 439 DNA Arabidopsis thaliana misc_feature (1)...(439) n = A,T,C or G 663 cggtatcgat aagcttgata tcgaattcgc ggccgcagag aagagagtag aaaacgggta 60 acttttcctt gttttgactc tcctaaaaat aatttctcaa gtggcaaaaa caaaacgaca 120 tttcatcgaa ttcaccgctc ttttaacagt ttgtaaactg cacctcagat ttcatctccc 180 aaaaactatt ctctctcttt gctctatctt ctcttcttca gctactaatt gctctgttta 240 ccgttactgc catcgcattc cccttcacca aatccgttac gagcttcttc tttcgccttc 300 aaatctaatt ttccttctgt tccgttgctg ttgtcagcca gttcttgatt tgaaccgggt 360 gggaggaaca caccagtgcc tgnnntgggc attcgaggtt gtggtgctgt ctggtgtcgt 420 ggatgaggtg gcagcagtg 439 664 205 DNA Arabidopsis thaliana misc_feature (1)...(205) n = A,T,C or G 664 ccccccctcg aggtcgacgg tatcgataag cttgatatcg aattcgcggc cgcttgngcc 60 atgggcctat cacttaactt tcatacaaag gacatccagt gatcactatt tgagtttttg 120 acattgtgtg atacatttga aggaaaggag taatgtttaa ggttgagtta acatgtaaga 180 gagtctgtgg agttactcag ttcag 205 665 186 DNA Arabidopsis thaliana 665 atttatgatt caagattaca atatattatt aaggaaaaac tctagagcct cccaccatga 60 cattaagaaa aaaaaaataa gagcttaaga aatttataat gaaaaatccc aaagctcaat 120 ccttaccctt aatagtcgaa aacagcaaaa gaaagaaagc ttaaatttgg atatctagct 180 ttatct 186 666 440 DNA Arabidopsis thaliana misc_feature (1)...(440) n = A,T,C or G 666 tatcgataag cttgatatcg aattcgcggc cgcttagaac aaaagtttct tctttcttct 60 ctcccgagag gcctctcgct gttcattgaa gttctcttag aattttctat caccttggtt 120 gtgtaatttg caaaacagac aacaatggtt gagcgtggga agaggactca caatcgtttc 180 agagacaaca acaatgacaa caaccggaat caaaggagaa gactttctta cgaatccgaa 240 gaaaananga tcgataacaa agacgatctc gttgttgttt acagaatctt atgcccaagt 300 ggtgtcatgg gaagtgttat aggcaaaagt ggcaaagtta ttaacttgat taggcaagnn 360 nctagagcta ggatcaaagt tgttgatcct tttccaggtt gtagcgaaag agtcataacg 420 atcttttgct cggtttcgga 440 667 107 DNA Arabidopsis thaliana 667 cctttttttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt ttttttt 107 668 298 DNA Arabidopsis thaliana 668 ccgcatcatc ttcctccttc tcgtttccga gattccgcgg ccaacttccg attatcttct 60 cagccaataa taatcagaag aagaagaatc ttccaaatcc aaacgtcgtc actctttgtc 120 tccactctca ttccaatgtc tcctcctctc aaatcgccgt cactcgccgc gcaattctcg 180 tcgcaccacc gctcctcgcc gccgccgctt cgttgtttct ctctatttcc tcagctgcct 240 ctgctgagac ttctgcggaa tcagtagctc ttcctcctgt tgctactgct cctcctcc 298 669 569 DNA Arabidopsis thaliana 669 tttttttttt tttttttttt tttttttttt tttttctttt tttaatcata attgaaatcc 60 atttaaattt tacagtcgcc attacaaatt tctgccaaga ttgtgttcat agttatttcg 120 tatgcaacag gaatctagga aatatagata gaagcaaaca atacatattg aaacactagt 180 gcttgatctg ggacaacatg gtcctgacat ctttactgtt cggcctctgt tttggatcat 240 ccaaagtaca gtaacaggcg atcttcagaa ccagaagcat ctgttcatcg aatccttgat 300 ccatcaactt cggatcaatc gcaacggacg cgtgggtcga cccgggaatt ccggaccggt 360 acctgcaggc gtaccagctt tccctatagt gagtcgtatt agagcttggc gtaatcatgg 420 tcatagctgt ttcctgtgtg aaattgttat ccgctcacaa ttccacacaa catacgagcc 480 ggaagcataa agtgtaaagc ctggggtgcc taatgagtga gctaactcac attaattgcg 540 ttgcgctcac tgcccgcttt ccagtcggg 569 670 434 DNA Arabidopsis thaliana misc_feature (1)...(434) n = A,T,C or G 670 cggtatcgat aagcttgata tcgaattcgc ggccgcttgg tgtagacaaa ttcaaaccct 60 aaccctagat tgattgcgta cggagtttct ctttggttan nacccccaca aaaactggga 120 gagcgatgag gaaagaggag attccagata aaagtcggac tatcccgatc gatccgaatc 180 tgccgaaatg ggtctgccaa aactgtcacc actcccttac catcgtcggc gtcgattcct 240 acgccggcaa gttcttcaac gatccccctc cgtccgctac gcagggctca tctatccatg 300 gagctaacag tgttcttggt tcaacacgca tggacaactc ttttgttgtt ttacctcgac 360 ataagcctcc tcaatctcag ggcattcctc cacgtcctcg cggggcgtcc tcacctcagc 420 ctgatgctac tcaa 434 671 399 DNA Arabidopsis thaliana misc_feature (1)...(399) n = A,T,C or G 671 ttttttttag acggcaaaga cagggatgaa atttgctgta cacaatattt atgtttttga 60 tctttagatt ctttactaga acaccgataa ttgcagaaca aattaacatc atgggaaaac 120 cagacgtggc ccaacataaa gatgaaacga aagaaatggg caaattctac ttggttatcc 180 agtaaatgaa tatgagnnnt gtgcatacag ccgcaacgag tgaaagaatg attgtatcca 240 tcgacttttt cctctttatc gctgccagaa tagtgttcac cgtaggtaga cggctggcga 300 cattgctaag ctttgagttg atgcctccaa aagttgaacg ttgaaacaca agtgtaccga 360 gtgttgcctg agcttgtgaa atgacaccgt ccatctgag 399 672 343 DNA Arabidopsis thaliana 672 tagagcggcc gccctttttt tttttttttt tttttttttt tttttttttt tttccagtga 60 tccatcatca atttaaacaa atcaaattga aaaaaaaaaa tacaataaac aacaaagtga 120 taacattaat acgacgacaa agagattctt aaggggcaaa acatgaactt agaaagaaag 180 aagaagaaaa acgagaacaa ggaagaagat tctcaatcat tcattcagaa gctttctctg 240 gttttctaca gagaatcata tgcatcggag agaagattcc agtctcacca cctctggtca 300 aataatcagc agtcttaaac aacatcttat gaacatcaac agt 343 673 300 DNA Arabidopsis thaliana 673 tttttttttt ttttttgaaa taagcacatc taattcaaag ataatataag ctacaaaatc 60 cattaaccaa aatcactgca gttatttcaa attatccaaa ccaaaagcta aagaggagag 120 tagcagcaca actcttacac tgtttaacag atatgtctga aacaaaaacg aaagggtaag 180 aagaagtgtc ttatagccac caattttaag taggtgaaag ctcagaagat tctttgtggt 240 ggtcccattg tgctcttgag gtacaaacac ctgacatttt gccagttctt cttcaatagc 300 674 341 DNA Arabidopsis thaliana misc_feature (1)...(341) n = A,T,C or G 674 ccgcggctct tattgcaatc tttttctttt tcaaaatcat agacatggca gaaagaaata 60 aggaatggag agaatgagag tttggagttt gagaaagtgt tgggttttgt tatgcgtaca 120 ggtcatccac attgcactcg cccaaataca ctttgatact tcgtggcgat ccacagtttc 180 cttctgctat cagaactctg tcgtttgcag acatgtgcgc tatgatcttg tatannnttt 240 ctatttcctc aggagcatga caacgatcag ctatctcttc cagtgtcaat ggctctaccg 300 gatctttaca agtggcttca ttaagaactg acaatacccg c 341 675 143 DNA Arabidopsis thaliana 675 ctcgaggtcg acggtatcga taagcttgat atcgaattcg cggccgccgt ggaggacgaa 60 ggcggtttgg taacatggct ggggtttttc aagtaatggc atttagtgtt ggtgcgttag 120 agaaagggga gagtgattca gtt 143 676 342 DNA Arabidopsis thaliana misc_feature (1)...(342) n = A,T,C or G 676 agcttgatat cgaattcgcg gccgcctttc ttcttcatct ctatatctac aacacattct 60 tgcaaaaata acaattctcg taacaaaatt aaatcttctt tttcttttca tttttcatca 120 tctaatgaac acaatgaagg agtcttttag aggtaaaaca atatctctct tacctctctt 180 tgatccgtgg gaattaaacc tttttcacca acccatccac cggtcaatcg aatcacaagc 240 agtctaaacc acagatctcg agaatnnnac cgcctttcgc cacaaacgga ttaacccgga 300 cccaaagaag tgtaagaatc gaggccagga ggatggacca ga 342 677 456 DNA Arabidopsis thaliana misc_feature (1)...(456) n = A,T,C or G 677 tttttttttt ttttcaacaa accatttcaa tcaatcatgg catcacacag aagnnnttac 60 attagcagag agtatagaac atcacattcc ccataaacat accatttatt attgagttta 120 cacaagacta ttggttaagg cgttaacaat gctcattatg ctctgagttt gctaactttc 180 ttctcaagtt cgtccttttt ggcaccaatg attctttcaa tttctttacc ccttttcacc 240 agcacaaagg taggcattgc cgtcacatta aannntttag ccacatcagg aagttcatca 300 acatctaatt tgacgaaatc aacatcattg aacttatcag ccatggcatg aatcgcaggc 360 tcaatcatcc tacatggtcc gcaccatgag gccgagaaat caaccaccag cagtttgttt 420 gattctttga tctcgttgaa atgaagttgc caccga 456 678 495 DNA Arabidopsis thaliana 678 tagagcggcc gccctttttt tttttttttt ttttcaggat cttaacttaa tacatattgt 60 atgattcttc tacatgtgaa aactcatctc accaaatctg caactaacaa aaaaacaaac 120 agaagaagaa taaagaagga cacaagaatt tacattacaa acaacaaata caacattcta 180 aaacacacac accaaacttt tctttttcta ctacttcttg acttcttctt caacaacaac 240 atcagctttc gttacaagga tatccgcttt ttcgtcagca cattcctcgg gaactatcgc 300 cattgactgc ctattaccgc atattgtcca aaggtataac gcgaacatgg ctcccaatgt 360 tccacaaacc gcccccaaaa ccaatgcacc aaggattctc catatacatt ttcctttccc 420 cttaacttcc accgtcttct ccccttcctt aacagtcttg gaaacgtcgt ttggatcaag 480 cggctgcgag tgaat 495 679 438 DNA Arabidopsis thaliana misc_feature (1)...(438) n = A,T,C or G 679 cggtatcgat aagcttgata tcgaattcgc ggccgcttaa cagtagcatc ttcttgttaa 60 taaccctaan nnngacagat tcatgaactg caactcccaa aataaatcta gaacagacgc 120 acatcaacaa aaaatcgaat gaggacaaaa aaaaaaggca acaaaagatt taaaaaacga 180 ctaatcttac ggagataacc attctggtta ggcaaataaa agcctaatct tgagaaaaaa 240 ggtctatata gaaaaacaaa tgaagaaaaa tcaaaaagta gcacttcttt atccaaaaca 300 acacattatg gcccaaggaa gaaggccgcc atgatcctgc ttaagtagaa gatttttgag 360 ctcaagagtt cttcaatggt tacaaagagg tggcatccta gcacccgagt tgtcattgtg 420 agctatctta gttttgtt 438 680 400 DNA Arabidopsis thaliana misc_feature (1)...(400) n = A,T,C or G 680 agaaaaagca tacagaataa aagagtctta aagaagaact ttcatacaag caaaagacaa 60 atacaaatat gaatgaagtt tctttatcta aaagcataca caaggcacag tgtcataact 120 caaaaccagc tcgaatttgg ttttactgaa gcttcttgat cccagggaag gatggaagga 180 tggagatgag agcatcattg tatcctacag gctctccatc ttctcggagt atcttgacta 240 cctcgccggt aacatcagac tcgattggaa attggccacc gagttgttca atgtagcaca 300 gaatttgacc ttctttcact tggtctttct ctttacaaga cgaagnnngn cgtttaccct 360 ttatggtttt ggatctcctg aagaacccta cttttggaga 400 681 351 DNA Arabidopsis thaliana 681 tttttttttt tttttttttt tttttttttt tagcacaagt aaagacattc ttattactgt 60 atgtaaacca aaataaaacc atacaaataa taagtgtaga tattgttaga tgttcaacca 120 cttcctgtaa tatcaaagtt ctaactaata acgaaaaggt ttttagagtt tagtcttctc 180 cggccatggc tacatcgtct tgatcagcat caccatctcc aaagtcatca tctccaccat 240 atggtgccac cggaagagat tcgtcttcat acaacggtgc atcaggaatc tccatgtcct 300 ctgtcagttt catcgtctcc agattctctt cgctgaagaa attgttcaat g 351 682 403 DNA Arabidopsis thaliana misc_feature (1)...(403) n = A,T,C or G 682 tttttttttc agtaaatctc gtaaataata ataacgataa atcagataca aaaagaaaat 60 aaanaaatca agaagaagac gaagaagaaa aaagaaagag tcagtgaatt aacaaaaatc 120 aagaagaggt tcggttaata ctaagtcctt gaaagagcca atgaggtctc ttcttctctc 180 gatccaacga cgtcgtactt gagctgctca taggcgtgtt tggtccgcta ctttcttggt 240 tattattgct gttattatat agattattat tgctctgatt attacaatta tccgatgatg 300 atctcattga cgttgttgac gagtagtcca tgtccttgtt cgttgtcgtg gtcatagtag 360 tagatgaaga agacaatcca atgctcaatg tcaattcgag ttc 403 683 577 DNA Arabidopsis thaliana misc_feature (1)...(577) n = A,T,C or G 683 ggatcctcta gagcggccgc cctttttttt ttttttttag ctttaaacta aatagattac 60 tgctttatat agtgtacata atattcttct aatcctagtt acattataaa tcaaataaat 120 attctgacct tacaattaaa cattcccatc ttttatgaac tccaccagca gcccactttc 180 ttgcccacgt gttcctcacc caaattaaga attctcccat gaacatgaat gaaggatatt 240 ttcgtaactg tagggtgttg ttaacttttt ttctcaactc tgacccaatc cgacgtcgtt 300 cgggaataac cggttcacat gggccggaac gagatnnnnc tttcgtcagt gagggcccac 360 attcttcagt gttttacgcg ggagacaaag ttaggtgtca aaagagccgc cacatccgac 420 aaaaggccag cgcaagtgtg actgtgattc cacataacga aagatgacac gtggacggtg 480 atcctttgtt ttgatccaaa gctccttcgt atatcattga tgtatctacc ggtgaccacg 540 tcgtactact atctccggca ggagttgtcg acgacgt 577 684 313 DNA Arabidopsis thaliana 684 tggttgaaaa ggtgatgttt tagatttaga ggttggtcgc agtatatgaa atgcatagaa 60 aattatacat tgaacactct gaacatcaac acaaactctt acatattatt tttgtgggct 120 tacacaagcc cttagcatat taattttagt aggtttagct agagaaactc tcatgcggtt 180 ttaagtggct ttccaggaag acaacggtgg agtgttggag ttcttgaagg tggacattga 240 ggccatgtat ctttctcctt tcacagactc tggtttggca agggagtcga gctcagatat 300 ttcttcagga gtg 313 685 575 DNA Arabidopsis thaliana misc_feature (1)...(575) n = A,T,C or G 685 tttttttttt taggcaacta ttttcattca acttattctt gtaaagacaa tgcaaaacga 60 tttgaaacaa aagaaggaaa tggaannnag ggaaaaaaaa atggtaaaga atatttacag 120 gcaaaataaa catttcttca cattgcaagt gctcgtggtc gctacaaaag taaactaatc 180 ttaacgtagc taacaagtaa ttgcttcaaa actcgtaaaa gtgaaatctt tggtcttctc 240 ttatgtgaac tcgtatgatc tcaaaacttg cacgatgtac caagtctctg tgtgttcctc 300 aacgtcatgg tcttgcgttc tgcaaaagcc gagtaaagca actcctgaaa cctctccaag 360 aacacaaccc attcaacttc tttcatgtcg gctaacttca caaagtttac gctaagcggg 420 agctgcacgt tcgcgctctt gtgacttacc aatgctttgt cggtttggtt gtctttcgga 480 ggtttcaggt atccggatcc catggtgttg cttagattnn nnttcattga tgtggaaagc 540 tttgagagag atagagtaag ttttgcctcc tcttc 575 686 247 DNA Arabidopsis thaliana 686 ttgctttcga ctattcatgt ttgatgaaaa atcttttctg agagttgaac ggccaattcc 60 atattccaag tatctaaaat tgtagaaaca tacatatact tgactatgtg actcaatccc 120 ccttgccaaa ttctccaaca ttcatgctgc tgctctccac caccgtctct cttacaaacc 180 ttgccagctt ctctcgtgac gattgtaaga cgtaaatgga gagtacaaaa gaaaatgtga 240 gagctga 247 687 132 DNA Arabidopsis thaliana 687 catgttttac atttgagact ctagaaactc caagatggcc aaaccggctg caccaacatc 60 gtcatccaat acatgttctg ccggagaatg acttattcct ccacgacacc ggacaaacaa 120 cattcccacc tt 132 688 307 DNA Arabidopsis thaliana misc_feature (1)...(307) n = A,T,C or G 688 tctagagcgg ccgccctttt tttttttttt ttttaaatta atttaattca tttaataaaa 60 atttaattca attatttaat cctttcgtac taaaataatt tattttttaa angatagaaa 120 ccaacctggc ttacaccggt ttgaactcaa atcatgtaag aatttaaagg tcgaacagac 180 ctaatactta nnnttttgca cctaagatta atcttaattc aacatcgagg tcgcaaacta 240 atttttaaat ttgaacttaa aaaattaatt acgctgttat ccctaaagta actttttcct 300 ttaatta 307 689 145 DNA Arabidopsis thaliana 689 agaagttact gtatgagtca aaattttaaa ttttgaacat tcaaccccaa tattctcatt 60 gaattgaaag aacgtatcct ttcaaataga cactacagaa tttattttag aaggtttgat 120 cccaaatgtt cttattggca acaaa 145 690 584 DNA Arabidopsis thaliana 690 atcctctaga gcggccgccc tttttttttt ttttttacac cataatgtaa ttattttcaa 60 taaaccaaaa tattaaaatt ttattgtcat tgatatctca taactctatt atgctaaaaa 120 gaagaaaaga tagaactgtg acatacttta ggtgagtaag agaagcaaga catggttaga 180 ctagaaactg tcgagaagaa gtagaacaaa aaagaggaac ttagaccgat cctaaaccga 240 ttaacaaaaa ccaacaagta tcaaaggaaa atactactaa cggagctatc atcatggaca 300 cgccaaatgg tctcacccag aagattagcc accgataata tcgttaactg cgggaagtaa 360 ttcttctccg ctactggtaa agtattcgtc actatcactt cttgcagcaa accgcttgat 420 aaccgctcta tcgcaggagg actgaaaaca gcgtgtgtac agcaagcgta aacctcacgt 480 gcaccctcct cgtgtaaaag agctgctcct ttcacaatgg ttccagctgt atcaataata 540 tcatccacca ttactgccac cttcccttta acatcaccga ttag 584 691 570 DNA Arabidopsis thaliana 691 ggatcctcta gagcggccgc cctttttttt tttttttttt ttttttattc atgtaatgag 60 aattattgtt tgaaagctaa acagaaagta tcgactattc aataaacaga aacattatta 120 agccttattc gtcgaaaact aaatgtttgt gctttccgca ctctaaagct tgcggttgat 180 gacattaaca ggaacaaggt gaagaggatg cttcctgtgg ctagtgagac caggtgcttc 240 ttcaacactc acttcctcag tcgctttcca atcaaaatga tacaaaagat tcgccaatgt 300 gtactccacc gtacttaatc ccacgtacat tgcgggacaa cctctgcgtc cactcccaaa 360 cggcaacagc tcaaaacttg tccctttagt ttccacattg ctatcaacaa atctctctgg 420 tataaactca tcaggatcct tccatacatc agggttacgt ccaatagccc aagcattgac 480 atgaatacgc gttccagggt aaatatcata acccttgatc ttgaagttag tcattgcttc 540 tcttggaatc agaataggac tcggtgcgtg 570 692 279 DNA Arabidopsis thaliana misc_feature (1)...(279) n = A,T,C or G 692 tttcctgcac tctgttgagg attgatcccg atcccatcat tagtgatgat ggcgctggtt 60 tgtggaggaa ccttgaactc ttctgctgcg aatttcagaa ccgccgtgaa cggagctcct 120 tctggtacgc tgaaaacttt gaaaggaagc ttaggatccg aagtcagagt gactttgaag 180 ggnacttttc caccagtggc cattttttcc gacgggggag gagattcaga ttagcacggc 240 ggataatggc gtttcaatga cgccggacgc gtgggtcga 279 693 202 DNA Arabidopsis thaliana 693 ctcgaggtcg acggtatcga taagcttgat atcgaattcg cggccgcctt tttccctctc 60 ttattattca acttttacaa ctaagtacat aaacaacaaa catttgcata catcatgtca 120 tggatgcaca agtttatttt tcattattct gataagggta atcgcccacc attgatagga 180 atacgaattg gtatatcata ta 202 694 101 DNA Arabidopsis thaliana 694 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt t 101 695 309 DNA Arabidopsis thaliana 695 tttaatttga acttataatt gtttaactgt cacagaaaaa acaatgatgt gtcatgtgtt 60 tatgcataca ttgaaattca acatatttac acatttacta ctaatgttgg ttctttgctt 120 gagtctctga atccacaaat tcagcgactg aagaagtcat ctgatttggt ttcttgggag 180 ctttctcttc agggatgatg tctctctcag gttctttcct cttcgaactt acactctgag 240 aacctgtatg cattgttcct agactcggtc tcatttctat ctgagaagag cctgtggctg 300 cactaactg 309 696 102 DNA Arabidopsis thaliana 696 ttttgatccc ataagaaaaa gacattggaa tgctaaggaa gcttggtgaa gagatcctga 60 agctgagtgt ggctcaccac aacaccaagt ttctgtgaaa tt 102 697 553 DNA Arabidopsis thaliana misc_feature (1)...(553) n = A,T,C or G 697 ctcttttaac ctttatagct ggtcgtaaca ttgtcatcta aagccatgat ccaaaggatt 60 caccacttcc ctactaacat catttacaac aaccctttca ttctagaaga aacgagaggt 120 atataaacca aatggcaaag aaatagaaag ctaccagcgt gtatgaacat atccaacggt 180 tttgctatag acaaacccac caatccaacc gcatcattac tcccgacacc aatccaaccg 240 atatgtgaca aactgaccag tcaagctgaa ttaccagatt ccaacgcctg taagataact 300 gactggttga acttgaagtt tatgaaactg ccaccaggtt ttatgtcctg agaatggtcg 360 actacaggct ttgtattgtg gctttctact gttgctgttg tattgtggct ttccattgtt 420 cctttcctga gttcaggctt tgtactgtgg ctttccattg ttgttctctt gagttcaggc 480 tttctactgt tgctttcnat tgttgttgtc ctgagttcag actttctatt ttggctttcc 540 actgttgctg tcc 553 698 274 DNA Arabidopsis thaliana misc_feature (1)...(274) n = A,T,C or G 698 cctcgaggtc gacggtatcg ataagcttga tatcgaattc gcggccgccc acaactctct 60 gcattgccaa acctgcaaat cctgcaactt gataataaca acttcagtgg atccgatatc 120 ccagcttcct atggaaactt ttcgaatatt ctaaagctga gtcttagaaa ttgtagtttg 180 nnnggggcac ttcctgattt tagcaagata cgtcatctca aatacttgga tcttagctgg 240 aatgaactca caggacctat accttcctct aatt 274 699 124 DNA Arabidopsis thaliana 699 cctctagagc ggccgccctt tttttttttt ttttgagcga actgaaagaa cctacataaa 60 catcaaaact ttcatgttcc aaacaaatct caagacatgt ccactactga gtatttaatg 120 tcaa 124 700 370 DNA Arabidopsis thaliana misc_feature (1)...(370) n = A,T,C or G 700 gggccccccc tcgaggtcga cggtatcgat aagcttgata tcgaattcgc ggccgcataa 60 actttaaatt cagaaggtgc agctcaactc tagaatgtga caaaggtcac aaagcaagag 120 tctgtaaagt gtactcgatt tccaaagcct aacatcaaga atttagctaa gacaatggtt 180 ttttcttcta agagtgcgaa naatggttca taaacattct acaatgtgaa aaagcccaaa 240 gagaggaagg attttaaacc ttacggttcc aatcacctcc atttttcgct tagttctttc 300 ttctctgaaa ggacccatgt gatgtagatg gctgcaacaa gtgctacaat cgtgatcagg 360 agaagagcgt 370 701 586 DNA Arabidopsis thaliana 701 cgggccccct cgaggtcgac ggtatcgata agcttgatat cgaattcgcg gccgccacgg 60 agcccaccac cgggaccgag aagcttcacc agccaataga agttgaagaa gatgacgaac 120 aaattgttga tttggagagg aaaacattcc gtcatggaaa gggacacgat actagtgtgg 180 acagtagtac aatcaccaac accagctcgt cgtcgtcttc tagcttttcc ggtgatggtg 240 gaacggaaga gacccccgat ttccacagca acggcgatgg agaacatacc gatttagtaa 300 atttggaggt cccggagcta gaaactgaaa tcgtatttca ccaagagcat gacgacggga 360 agaattgcat cgtcttcttc gacggagaac aaggttctga gtcagctggt gccatacctg 420 atgctcatga ggagtctcaa actgctgact tgaatgggga gcaaacgcag ttagaacctg 480 aaaacggttc aacttctgag gataacgaaa gatctcgtga aattgaagaa gtactagatg 540 gtgatgtctc taaagacttg gatgctgttg atccactcgc tggtga 586 702 437 DNA Arabidopsis thaliana misc_feature (1)...(437) n = A,T,C or G 702 ccaaaatttt aaactgttgt gagaagaaaa aagtaaccca aacaatttca agagaatatg 60 ctctactact gtttacaaac agatgttgat tacaccgant agctcagact tgttcttcca 120 actcgtggca atctactcgg tcttaaacca gtttgtttct tcatgtggca atctcatcga 180 cctccgaatg gaagacaaaa ctcggaaacg ttgtcgtaat atccctgaga tatggaagag 240 tcatgatctt aagcaatgat ggatttttgt ttacgaaatc actccactct aatttatcaa 300 tttttccatc ttgattcacg tctgcatctt caaatgtctt atcgagtatt atctctatgg 360 tttcatcagc cagtttcatt tcagattcgc agagaagcgc gatcaacatt tgcttgacct 420 cttgtcgttc aatgtaa 437 703 466 DNA Arabidopsis thaliana 703 cctctagagc ggccgccctt tttttttttt tttgggaatc aatcttttta ataagtgttt 60 aaatagacaa aagcagagaa tcctaatgta actacttaca cacaagattt acatttggtt 120 cttttctttt cttgtctttt cgaatattct tgatcttaaa tcaattttct tcctccaagt 180 tggtaggctc gcttagaaca tacttaggta gctcatactt agcacctctc tcgtcatagc 240 agactgtgag atctgtgttc tgaacaatga ctcctgcact gtccacaatt gcttgtgcaa 300 gagatatgtc agcttctgca gcagcgcgaa gtgcgtccca tatctctttt ctaccaccat 360 aatgaggagc agtgtcccaa aactcttctc taagtttcat aagctcagct ttcgtgatcg 420 gttgggtatg cttccacggt ttcggcttcc taattttctt cactga 466 704 425 DNA Arabidopsis thaliana misc_feature (1)...(425) n = A,T,C or G 704 atcgaattcg cggccgcctg ggtcatggtt ttgtctgctt ttcgtctttt gcttttgtct 60 ggatgattca taatctctcg agatctatta tgttcacaag agttgttctt atgcgtggtg 120 agatgatctt aggagtgttt cactatcttt cttcaattcg ggtttttagt ttctgagatc 180 tgtttttgaa gaatctgatc tgagtttgag gaagtttgac taaatagatc gaagaagatg 240 tttaagcaga tacttgnnna gcttcctaag aaaacttctg ctaagttttg ggataatggt 300 gaatcccaaa ctctagataa caacaacaat caaggaggag gtgatgaagt tttaagccag 360 agaacgtcat caaatggaga tactagtttg gattgtgttt cttcttttga tgtattgcca 420 aggtt 425 705 422 DNA Arabidopsis thaliana misc_feature (1)...(422) n = A,T,C or G 705 attcgcggcc gcccgatctt tcctctctgg gtcgtcggaa tttgagcttt ttaaaatcat 60 gggaaattgt tttgccaaga accatggatt gatgaagcca cagcaaaatg gtaataccac 120 tagatcagtt gaagtaggag taaccaacca agatccaccg tcgtatactc cacaagcgag 180 aaccactcag cagccggaga aaccaggttc cgtgaatagt caaccaccac cgtggagggc 240 ggcggctgca gcaccaggac taagtcccaa gaccaccact aagagcaatt caatactaga 300 gaacgctttc gaagacgtgn nnctctttta cacattgggt aaagagctag gtcgtggtca 360 atttggggta acgtatctgt gcacagagaa ttccacgggg aagaagtacg cttgcaaatc 420 ga 422 706 203 DNA Arabidopsis thaliana 706 tagagcggcc gccctttttt tttttttttt ttttttagaa tagaaaaacc ttcaatagaa 60 agaaatattt ggccactaaa ctcaatccgt acatcaatgt aaaagttcaa gagagaccag 120 taaaaaccga agtggttatt acaacaaaat cagacataga agcagtgata tacaactata 180 tcaagaatcc acatggggga acg 203 707 153 DNA Arabidopsis thaliana 707 tttttttttt ttttttttgt tctcaaagcc aaagaaacca agcgacgagc ttataataga 60 gatggtgtct caatattcag acttcagaaa tcaacacccg gcatatatta tggccgttac 120 gcattcatta ttcaaaacga gacaagtttt ttt 153 708 411 DNA Arabidopsis thaliana misc_feature (1)...(411) n = A,T,C or G 708 ttttttttgt gtaactaaaa agtagttttg ttcaaatttt cttacaatgc attactcgct 60 cacaataaac ccagatccat ctgttttact ggctaatata caataaacaa aatccaatta 120 tgcaatccaa agagagaagt gaaaacactc tcgacaaagt acagaaaaag tttcagaaga 180 cgaaaaagat tttgcttcag cagttgatgc cacacttgga agtgtcaggt nctttggtct 240 tgagcacaaa aggatcaatt cttacccaaa gcaaagagaa gatagatgcc aataacactg 300 accaaatcac cacaatgnnn ggtgttctgt tctgtctacc catcagacct ttgaggaatg 360 ggtagagatg aacaatgacc caaaaggaga agaagagttt accaaataga g 411 709 460 DNA Arabidopsis thaliana misc_feature (1)...(460) n = A,T,C or G 709 cccctcgagg tcgacggtat cgataagctt gatatcgaat tcgcggccgc tagacttatt 60 cttgtgcatg ccacctccaa gagagaatgt gggttttgag aagtcagatt ctactgtgtc 120 nnnggaggca aaccttgttg aaagcacgtt agaaacatct ggaatgaagc ctaccgaatt 180 accttcagnn ngttcagtgc ctaaaccatc tattttagtg aatagatcgg aaaatgctaa 240 tatgttgagt tttccagcgg gccctgcatc agcggggatc acaccaccag caattgttcc 300 acccaacggt gagcctaaaa cttctgggat gccttctgag accagtgatg tagattctgc 360 gtatgctcct tcacctcaac ttcctctaag ccccagacta tcaagtaaac tttctggcta 420 tcacactcct gtagaagcgt ttgagcaagt gctaccacat 460 710 428 DNA Arabidopsis thaliana misc_feature (1)...(428) n = A,T,C or G 710 tttttttatc tcatacatta tctcactgtt ttattctcaa acttaggagt actatcatca 60 tctagcctaa aataaaaaga aagtcgtcgg atatatatct cggatacgta agnnnaatcg 120 accaaaattc gacgactttt atcttttcta atactactat tattccttgg ttgcagtggg 180 gaaaattttc tttggagctt cttggagtta cttagttgtt gttaccttcg gctgcacgtt 240 taccgcaact tcacccgatg cagtgccatg taagncatga gccgataacc caccaacatc 300 actcccataa caaacacgtc tatccagaga ttgttcaatc ccattgactt gattgctggg 360 aagtctccaa ctctgcacca gactcctttt gaacactcat agtagtcgtc atcagtgtat 420 tgaatacc 428 711 580 DNA Arabidopsis thaliana misc_feature (1)...(580) n = A,T,C or G 711 tttttttgtt cttcaacttt tctcgaatta attcagattc agaaacaaat cttaaacata 60 agagtttttc aaagaatatt aaacaatcaa atctaatttc tgtatatcat caaaaggaag 120 tgaaagcttc tgaatgtagt agagagcaac aatgttcatc ataccaccag agtaagtcct 180 aatgcctgtt tatatcaaat cttctgtacc gtttttcgca cttcttgttc cgagctattg 240 gtttcttgtt cacgattatg attcagtgag cactaattcc ttatcgcaaa ctggacacgc 300 ctcgcttctt tccatccatg caagaatgca agcgagatga aagtcatggc cacatttagt 360 gagcaatttc gggttatcaa tctcatattc ttctaagcaa attggacatt catcgattgc 420 ttctcgatac tgtttcttta gctcaaaatc agttagatca tcaacatgcc atgttttctt 480 ctctggaaca acttgtgtga gtnncgggga tgcttcactc gaattgccct gagttcttgg 540 caatttcggt ggactagttt gaagatttat attcgtgatg 580 712 464 DNA Arabidopsis thaliana misc_feature (1)...(464) n = A,T,C or G 712 ttatattatt aaacagctaa aaggcccact agctacacat gtgagtggca gagaaaagtt 60 atagatttct tctattcttc ctacactttc gtagagtgag acacaaaaga tcaatcaaac 120 tactaatgtt gcaactacaa ggataatgnn tgctgatcta gtcattaatc caaccgccag 180 atcgactcat ataagggtag ttcgggttcg ggccaggggc aaaacccctt ggactcattt 240 cgaagtcact aggtggtggc ggtggcagtg gaaagtcatg aggatttaag agattatgtc 300 cgctaggttg caatggaggc tgaggtggga aagagctcat cctctggtaa ttcatttgat 360 cgnnatgagg cgcataacgt tgttgcaatg ggaatgcatt gtccatcaga tttggaggag 420 gaggaggagc taacatgggg tccaagtgcc caccgtactg ctgt 464 713 132 DNA Arabidopsis thaliana 713 ccctcgaggt cgacggtatc gataagcttg atatcgaatt cgcggccgcc ttctctcttt 60 tatcttacga ctctcacttc ttatctcaaa tctacttcaa ctctatttcc agtctccaca 120 ttttcccaca aa 132 714 104 DNA Arabidopsis thaliana 714 atcctctaga gcggccgccc tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt tttt 104 715 565 DNA Arabidopsis thaliana 715 ttttttttag gttcccaaca cttgattgat actataattc aactgtttaa aaataagtta 60 taagtatgag actaacttat tagatctcta taatacattt gacttagctt ttatgcttgc 120 ttaggcgacc aaaaataaat aacaatcacc aactgtaaga agaataattt cggaggaaaa 180 ctatatgcca agtcagccta ttttacccat atgaagactg tcggtggtcg ccggtgccga 240 cagttgactt tgcggtcccg ccggagatcc aaatcccaac atgtccgctg gttgttgttg 300 cacggtctgc atctgatttc ccgccggcgg catctgggga atcccgccca tgtacctagc 360 gagctgctcc gataagattt ggttctgtgc ttggagctgc aactgtaccg ggttttgaca 420 tactaaaccg ggatggttct gcggacggac cggttcataa ccgggaattg agacaattgc 480 atctgacttt gcatagccat ctgattaatg tatggagatg attgtacccc gggaaacatc 540 atcggacttg ctgctgctgc tgccg 565 716 196 DNA Arabidopsis thaliana 716 tacaaaagaa acagtattat acacaaaacc tttcaagaat taattcaaag agaatgaaac 60 aataaagact ctaaaatcat ttcataccgc cgaaaaaaaa agataccaaa caactattta 120 tttttctact gatccaaacc gtccaggcgt tgctctcttg cgttcagccc caagtgcgcc 180 agctttatag cgatag 196 717 428 DNA Arabidopsis thaliana 717 gaattcgcgg ccgcaaaagc cttatttaca tacatacacc aacaaaccaa agacttaacc 60 attgatcaaa cacatttatt tatctcatga aacaacaaac cccaacctaa tcatatacta 120 cactaagaat cctctctaac aagcattcaa tagcaacaag tgggtactac aaaattaccc 180 ttacacaata gagtttacaa ctacattcac tagagaaact tgtgtgaaag gtttaacact 240 ttttaccgcg gcttatacta tgatcgttgt tttcgacttt tcgcagtatt ctccggtgta 300 ttagccctaa agatgctgac ttcaattcat ggacattctc caactttctc cgttagagca 360 accttgagtt gatcttgcgt gaaaaactga ttccccattt tcacagtcgc ttgttggatc 420 ataagatc 428 718 361 DNA Arabidopsis thaliana 718 ttaactctca aagactgttt gtttcatatt tcattcaaaa gctatttgtt ccaatacttt 60 ctatcggtgt ccaattgcac accaatgttt aatgaactag caaacaagcc agattcgaaa 120 aagaatatac aatgaaagta gcattctcta tcacaaattt caggaggaaa aaaaatgaat 180 cttgcttgag taggagacag atcaagaaga agtacaacaa gtgctggtct tagcgggaat 240 ctcctgtcca gaacctggga tgagaatctt cttaccagcc aatgaaccgg ggttatttga 300 gtcgccttca gatgcaagat tcttcttgtt cacggtattg tatatctgag tcattagagt 360 g 361 719 430 DNA Arabidopsis thaliana misc_feature (1)...(430) n = A,T,C or G 719 atcgaattcg cggccgccac acataatatg tttcatacta aacatcataa ggaggacagt 60 aatcaacgta tatgagtttg ggacttagaa atcaaactac tgaagcatca acaaaaatgc 120 tcagaagtta gtaagtacca tagctatgtc tcagaacaat ccaaccaagt ttcttggatt 180 tgagtttact aacttggtgc ttcagtctct ctctgacctg gatggtttat gcagcagctg 240 catcaaacct cttcatcatg tcgcaacgtg gcgtttcgcg gatatatccc cattgttgtc 300 tctgaagctc atggcgacaa ttcnnnccaa gtatagacaa gtaatctcta tcaacttgct 360 cttcaaccct ctgtctctcg aagctactta tcggatattc ctgctcgaac ttggctgatc 420 tcacaaagta 430 720 382 DNA Arabidopsis thaliana 720 gacgggcccc ccctcgaggt cgacggtatc gataagcttg atatcgaatt cgcggccgcg 60 catatcgcaa tgaaccattt cgtaaatttt tcgctacccg aattgatttc agctcgaacc 120 aaatcgaaag aactaaccat agcaacagaa tatagtgcaa tctttgccaa aagtgtatga 180 acttaatcaa aaaccgaacc aaaccaaacc gaaaacccga aaattcaagg ttttagaatt 240 gaagatttga gtgagacttg agaagccaag tctggctctc ctagtctcaa gagaccctta 300 ctcaaaacct cagcgacata ctcatcagcc tcccatgact cagaccccca accactttcc 360 ctcatcaagg tataaaccct aa 382 721 559 DNA Arabidopsis thaliana misc_feature (1)...(559) n = A,T,C or G 721 tttttttttt taattaatca atgaccaaaa tattattaag ataaaacaac aaccaacatc 60 atatacatgt cacagtacgg ctgaaccatg cttgtattaa taaagtaatt ccaaagacta 120 tatttcttat tacattatta gaacctggct tgtaaattcc tgaccgcatt aacatccatt 180 tggaatgctc ttgcaagaac attcgggtct acatctggtt tagacccaaa tattgtgtta 240 gcaattgtga taacacctgc gttttggctg ctcaaagcag cgattgcaac tgctggagtt 300 cctcctangt tgaactggaa atggatgagt ccttctggaa acacaaatac gtcacccacg 360 ttgagtgttt tggcgaaaag acggtttccg tcttggtttg atgagataaa ccctacaagt 420 agagttcctt gttgaacaac caagatctcg gtggcacgtg ggtgggtgtg aggtgggttc 480 tgaccgttgg gtgcatagtc tatacgaaca agtgagatac caagagtgtt tagtcctcca 540 aggttgttaa cattgacgg 559 722 400 DNA Arabidopsis thaliana misc_feature (1)...(400) n = A,T,C or G 722 aaccatttga caacaattat tgtattccta taaattttta tatgcagtat tttgactccc 60 ttgcgcaaac taaaagcaga acagactact cgtgtacaca acttctcaaa annaaattct 120 gatgaaaacc aggacttgca aagccaaaat gtagacgaca aaagctgacc tgagatacat 180 aagccttgtt tgggtcccat ttcttgtagc agatgaatat ggaaggtagg aatgaccatc 240 aacttcgtgg tctgatgtaa attctctatc tgaatttgtt ctcttgaatc tgttcctcgc 300 agcgttccct tcaacgnnaa agctttcata tcttctccat aaattnttta gtctctctaa 360 ctccatctca tttagatgaa tctcaccaac aatcccctct 400 723 424 DNA Arabidopsis thaliana 723 tcgcggccgc ggtatggaga actttacagc ggtttggctt aaaccaaaga tgcttgagag 60 ttacctgaga agacaaggtc ttgccggaac tccttacacg cctcttgtcg gtgatttgaa 120 gagaaatttt agcatgctgg ctgaggcaag atccaaaccc atcaacctaa cagatgatat 180 cacaccacgt atcgtgcctt atccgttgca aatgctcaag actcatggga ggactttctt 240 tacatggttt ggacccatac caacaatcac cataatggat cctgagcaaa tcaaagaagt 300 gttcaacaaa gtttatgatt tccagaaggc acatacgttt cctctgggca gattaatagc 360 ggctggactc gttagttatg atggtgataa atggacaaaa caccgaagaa tcatcaaccc 420 ggct 424 724 368 DNA Arabidopsis thaliana misc_feature (1)...(368) n = A,T,C or G 724 attcgcggcc gcctgacgag ttctcaatag taacctctcc ggcgcttatc gtgaaaaacc 60 ctatgttcca gacttctctt acgctttcct tgcaaaatct gcctcaattt nnnnntgaag 120 acaagagctt gaggcttttt ctccaatctt aattgaaact ttggggtttt tctcacgggg 180 attttgcgaa ttagggtttc ggattgggga ttttgttaca tcgaaaggac tttggagatt 240 cagcgttggg ctcggtaatt gaagaatgca gaattcataa acaccgctct ggaattttac 300 tttttaggat aacaaaggag ggtcatttta tctgttaatt gatgggtgaa gagatatcta 360 gcactgtg 368 725 490 DNA Arabidopsis thaliana misc_feature (1)...(490) n = A,T,C or G 725 gccgacaaca cgtgaagatt ttatcaacac gtattcaact ccaccgctta aagattcact 60 tgtccgattt atannagnaa aaaaaacaag tctaagcatt aaattgagaa aacaaaagta 120 cattatccgt accggctccg gtcagatcta attattaagc gcatcctcct ggagcaaacc 180 cgacccggga actcgctaag tcgtatacaa cccggaaacc ctgttgctgg atatttccaa 240 ttatggatag tccgcccatc gtaccggcaa acgcaaaaca gaacttgccg ttggtatcca 300 cagggatcag gtaattcgtc gccggaagtg atacgtcagc tccacggaaa tgtaaaacca 360 ccgtcggtac tttaacctcg ttcatattgg agagatcgaa acacgtgtcg aagagtgaga 420 aatccggagc tcttttcaat gtcttagctc cgacccggaa cgcgtctctc atagcaatat 480 aagctggtcg 490 726 454 DNA Arabidopsis thaliana 726 tttttttgtc caaaaaatat aattcagatt tggtatttag attctatgca ttacaacgtg 60 gaaacgagat acgtaaatac ccacatacaa agatacatta tattgttgta gcttgaacat 120 catcatcaaa tctaatcggg taaataaaca tcggatttga agtgaggaag aagatatgaa 180 aagaagagct ataaagaaac gaaatttggc taacgattga acgcaaccga aagagcaaca 240 ccaaggacaa gccatgctcc aatgaagtat cccaaaatcc tcgttggtcc tacatcttcc 300 ggttcctgag gaggtggctc ttccctggat ggttccatga tgtcaacctc aaatggccac 360 acgtaccgtt ctgctttttc gcttcttgct agactccaat cgtacattct tctctcttcc 420 acggtcgaca atatcgtata tgactctttg ataa 454 727 366 DNA Arabidopsis thaliana 727 ctcgaggtcg acggtatcga taagcttgat atcgaattcg cggccgcact tcctctacct 60 atctaattcc gaatctggat ttggatttgg atctcatttc gattcaacga tgaaggtggt 120 tgataagatc aaatccgtga cggagcaagg ccaaacagct ttctccttcg agtttttccc 180 accgaagaca gaagatggcg tcgagaatct ctttgaacga atggatcgat tggtctctta 240 tggacctacc ttctgcgata tcacttgggg tgctggtgga tccacagctg atctcactct 300 cgagattgct tctaggatgc agaatgttat ctgcgtcgag actatgatgc atctcacttg 360 taccaa 366 728 449 DNA Arabidopsis thaliana 728 agattttgtg acaattctaa gtcttatgga aaccgtaata caaatcctct aacgcactaa 60 gttcagattt taaccaaagg tgcatgacga cgataaggca gaagagaaga ttgtcctcct 120 cacacaattt gatttctttc cttttcaatg cttttttaag cactttgaga cttttggagt 180 attttgttga agggatctga tcatgtcctc ttcataatgt atcccaggat taaaccgatt 240 aggccgacca gaagaacgta catgaaaggg attccaccac tcttacttct cttgctttcg 300 cgcctcaact ggtccaattc ttgttgaagc ctgttgttca gttgaaccgc agagttcttt 360 tcctcggtga gttttgtgac cagagctctt gcctcagatg aattatcctg agcatcaacc 420 ctgtctgcgc taaatcttgg agcagcagt 449 729 378 DNA Arabidopsis thaliana 729 gaaatgcctg aaaaaaaaga ccaactaaaa ctggctcact cgcaagttcc agatttaagt 60 accaaaagac atcaaagttc tagagtagat attatagaga gtagtcatca tgctgcttct 120 tcttctcaag cagctgcact gtgtttggcc tttgtgtgag actgcaatcc catttccgaa 180 gtaaaggttc tggtgcacga cttgcaccca aacgctcctg cagacttcgg tgtctgctgc 240 tgcttcgatg tctctccagt gctgcctcca ccagaattct tacccgcctg ttttgaggga 300 tgaggagttg caacatggac atgcggtttc ttcgaatctg ttttctgagg agttacaaac 360 ttagccttct tgttggac 378 730 465 DNA Arabidopsis thaliana misc_feature (1)...(465) n = A,T,C or G 730 cccctcgagg tcgacggtat cgataagctt gatatcgaat tcgcggccgc ttttgcctct 60 tttggtctct ccccttctcc ggagagnnnn gctctctcta tctatctctc aatctgtaag 120 aagaagattc ccacttcagt aaaagcccta actttacttg ggaaagttct tcatctatca 180 tccttcaatc gtcatcatcc atggctgatc aacaaaccct agattcctct actcctcctc 240 ctactcaatc cgatgatcta tctcactccc actctacttc ctctactact tcagcttctt 300 cttcctcaga tccatcactc ttgaggtctc tctccttaag tcgactcaac gccggagctc 360 ctgagttcgt tcctggtcga actactcctc cgctgcctca acctccgagg atgattatcc 420 cgcctcctcc gccgcacggt atgcttcata tgtatcacca ccagc 465 731 414 DNA Arabidopsis thaliana 731 atattaacgt ctaaaacaca taagtggttg ttactcaata cataaaatca gaaatgaata 60 gtgatcaagg aatgtagtac atgggatttg ggactttgaa agaacgatca gccacggcaa 120 aaccttgcaa gtcactccat tgatcaccgc tattgccacg gattttgaaa ccttcctcaa 180 tcagtttcga tcgctgctcg gatttgtaat ttgtagctga cttcccttga tcatttggac 240 ctctcaagag gagacgttcc caaccggaat aaccggcatc ccggagattt gtctcggtgg 300 aagtcctttg atgctcgtcc cgaccggtta gcaaaatgat agtgaaacca agtttcttga 360 gagcattgta cagtctcaag ctcgcatcaa aagctggagc tgttccttgt tcca 414 732 430 DNA Arabidopsis thaliana misc_feature (1)...(430) n = A,T,C or G 732 atcgaattcg cggccgctta caacagactt caaacccccc aaaaaaagac cctaacaaaa 60 gtctcagatt atcacaagtt taatttcttc tctccataaa gatgaaatnn nnnttttctc 120 tgcaagactg caaactcaaa cttctcagct tatttagtat ttgctcctct taatagttct 180 atctcttttg accgttcggt cgtcaccgtg aagcctcata tacatggtac tgaggatctt 240 tccaccagtc gcttctccat gtttgcaccg ttatacccaa atgttcagaa gacttttaag 300 tttggtgaaa gcaaagtatg ttctttgttg gaaatggaaa gttgagagat cttcaatggc 360 agagtgcttc cccgtatgct acccattgtt tgaagctatc tgggaaatca tcgcgaatct 420 ttgtgtgtac 430 733 423 DNA Arabidopsis thaliana 733 tttttttgat agaagaaatc ttaaaattaa caacagaata caatgtttac atgtggaata 60 caaaaacaaa agtatgtaaa acctataaga gtgttataat gtttagaatc cttgtgttag 120 tgcaaacaca cgtccctcta aaggtggagg caatgcagaa accgcatctt cgatttcctt 180 cactgtatac cgagccgaaa agtggattag caggattgct ttgttttcaa acttttcagc 240 atgatttact atctcagata tatggatatg tccataatct ctcgcatgct ctaccgatac 300 cgaatcatca agaaatgtgc tctccatgac gagaaccttt gccttgagag catcagcatt 360 agtttcatca actacaaaat ccgacgttgt atctcccgta aaagcaactt caggagttat 420 tat 423 734 393 DNA Arabidopsis thaliana misc_feature (1)...(393) n = A,T,C or G 734 aggtcgacgg tatcgataag cttgatatcg aattcgcggc cgcgcttcaa tgactgnnnt 60 ttcagatcta ccagcacatc tgaagagggc ttgcataagc tataggggag aattgacatc 120 tttgtatgag tatattccac gtatgaggaa gtcaaatcca gaagaggcac aagataatat 180 tatcgccaac ggggtttcca gccagagaac attcaacata ttggtatctc tgagcggaca 240 cctatttgat aagtttctga taaacgaagc tcttgatatg atcgaagcgg ctggtggctc 300 atttcatttg gctaaatgtg aactggggca gagcgctgat gctgaatcgt actcagaact 360 tgaagttggt gcggatgata agagagtatt gga 393 735 348 DNA Arabidopsis thaliana 735 cagaactggg aaagactaat ccttcagaga acaagcaact aaagctggca aggagcttgg 60 atcgtggcat tatcgacagg gatctaaagc caagtaatat cgagcggaaa tccattcaaa 120 gagttttgaa atatccgcca acaaggacat tgagtggaga tgaaagacaa cttctttgga 180 agtttcgttt ctctctaatg tctgaaaaga gagctctaac aaagtttctt cgttgtgtgg 240 agtggagtga tgttcaggaa gcaaagcaag caattcaact gatgtacaaa tgggaaatga 300 tagatgtatg tgatgctttg gagctattgt ctcctctatt tgagagtg 348 736 459 DNA Arabidopsis thaliana 736 cctcgaggtc gacggtatcg ataagcttga tatcgaattc gcggccgcga ttcgaatcat 60 tctctctctc tttcttgatc tgaaaattga gtcccaattc cagcaaaatt atcaatcgaa 120 tttctgatca actgagcgcg acggtggtgg cgacggtggt ggcgacggtg acagcgatcg 180 acggttatgg cttcgaagac taaaactagt ttgtccgaaa caacaactac tactactcct 240 accgggaaat catctccagc aactccaaga atagcaaaaa gaacagttaa taaatccgaa 300 actagtaata ataattctcc atctactact actccacatt cacgtctttc tcttgatcgt 360 tcttctccaa attccaaatc ttctgttgag agacgatcac caaagcttcc aactcctcct 420 gagaaatctc aagcgcgagt agcagcggtg aaaggaaca 459 737 100 DNA Arabidopsis thaliana 737 gggccccccc tcgaggtcga cggtatcgat aagcttgata tcgaattcgc ggccgctaaa 60 agttcatatt ttcttggtgt tgattggtat tagatgacta 100 738 231 DNA Arabidopsis thaliana 738 ctctctctct ctatctctat ctctcgattt gggggagttc cgtcacggtg gactagtacg 60 tctcgttgcc gttggtggcg tagtcggaat taatttcctc ggcgttgaga ttcacatggt 120 ctagaattct agctaagtgg ttgttgttgt tgttacgatt tccgatttct cgagtttttt 180 tttttatatt tagcttctgt ttcgtttatc cctcccggag acactccttg g 231 739 354 DNA Arabidopsis thaliana misc_feature (1)...(354) n = A,T,C or G 739 attggcaaaa atcatgtata ctttgtttga gttatgaaaa cttttaagaa gaaactgtgt 60 tgttgttgtg ctcctttgat ttagcgagtt tagcttgtat gagtttgtcc aagatcggtg 120 gctccaatgg aatcacatca agacatctct ccgaagccgc aacgatcacc tcgtcgagca 180 agaagtctat tgcagcttcg tcctcaactg cttccttcaa tggagctttt aagaactgaa 240 tatctagctg aatctgctgg aacccgctcc gnntaaacgt ttggagacgg acatattctt 300 gcaaactctt cagacaaagt tttactgttg ttgtaacaac ggattcctgg gtaa 354 740 478 DNA Arabidopsis thaliana misc_feature (1)...(478) n = A,T,C or G 740 ctagagcggc cgcccttttt tttttttttt tttttttttt taatttacaa aaatatttat 60 tggaggtcac aatgttcata gtaccatgcg nnnnnnagga ctcattctca tcatcaacct 120 ctctgtttgt tcatcttata ctgcaaattt tacaaatctc caaaaccaga accaaaacct 180 tagccaaagc attgtaaagg caaacacgag aacagagact tttcagtttc aacaaaccaa 240 cgacgacttc tttcttacac agaccaaaaa ccaaaatatc aacttattct cacttctcca 300 cttgcgtgta cttcctttac agtcttatcg tattcatcct catcgtcttc ctcttcttcc 360 acctcctcct cttcctcctc cacgtcttct gcatcttcct cttttccatc tgcatcccca 420 tttcctcccc agccaaaacc tccgatggat cgggaaacag gaggcggtgt tttggcgt 478 741 458 DNA Arabidopsis thaliana 741 tttttttttt tacaaaagat aacaaaaact cacaatctta atgtgtattt agaaaagaca 60 ttaagcattc caacaaagat tcttgctctg cgagccgaaa aacaaaatca aaaccaaaca 120 aattcacaat caagtaacca caacaagagt tgtggatttt actcaaattg ataagcggat 180 cattcattct tcaaacttca gaagctggca aaaagtgaag ttacgatcct tggcttgtaa 240 ttctgcaact ctcttagcag cacctgaatc acgagggctc cctcccacac gacgaagcgt 300 tctgatctta ggtagctcct taactatagg agactcgtca ccgttctcac cactgctata 360 cagatcaact tcacttggaa tctcccatct cttcttcact ctcccttcac tcttgttact 420 ttcatcagaa gctcttctct tctccgacct cttatgat 458 742 460 DNA Arabidopsis thaliana misc_feature (1)...(460) n = A,T,C or G 742 atcctctaga gcggccgccc tttttttttt ttttttttaa aataaactac ctagctactt 60 tttgaaatcc caaaaaatta ttacacattt tgttcttttg tcatatgcgt gtaaatgaat 120 gatatcatag gatcttcaac aatcaatgtt catcatttaa accttccatc gccgcaacat 180 ctcgatcatg atctcgttcc acgtgtcgac aggaccaggt agacaccaat gcaaacaatc 240 attaggaatt ctctccggta caccgttctt gaacgggtcc gcgtacatgt acggaccagg 300 atgtccgtct ggtctcagta ccgacatagc cgtcacgtcc aacacctcta acctcacctc 360 agccgcagcc gccgtatatt cctcaatttc tattttgcgc atgtnnaagt ccagaccttc 420 taaaaccttc ccttcgtacg gtttggtcat gttacatgcg 460 743 115 DNA Arabidopsis thaliana 743 cctttttttt tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt tttttttttt ggggg 115 744 445 DNA Arabidopsis thaliana misc_feature (1)...(445) n = A,T,C or G 744 cccttttttt tttttttttt cagaataaaa tttgtctttc attgtgagga ctctgtttct 60 attttctgtc atacttcatc ataataacag aacatatctt aaaactcgga agaacaaata 120 aaacccaacc aaaaagactc tactaagaaa ctgatactta catgcataat ttgtatcgat 180 gtttcacaca ggaatattga cctttttgaa tgagtttgag acggttcttg ggctctctct 240 atgcttctct cagacggtgt aagcttgttg aatggtttca atgtcgagac cttttagtct 300 gacaacagat tcaacatgac ccttaagtgt gtgaagctcc cgcaacctgg cgatctcgnn 360 ncttctctta gcttcttcgn nnatttggga aagctcgttg aaatgggttc gctctgggaa 420 catcttagca tctggtgctt gcaga 445 745 297 DNA Arabidopsis thaliana 745 gataatttga agatggtgtc tgacgctagc aagaagaagg cagctcagaa gaaagctgct 60 gccgccgcta aaagaggtgg taaagctgct gctccatcca aatccgccgc tacttcttcc 120 aacggtgttg atagcttgtc aagcggtgtc gatgctcttc aaatttctga tcggacttgt 180 accggagttc tctgttctca tcctcaatct agagatatcc gaatagaatc tctgtctgtg 240 acgtttcatg gttatgacct tattgttgat tcaatgttgg agcttaacta tggaagg 297 746 497 DNA Arabidopsis thaliana 746 ctaaaaaaaa tacatacatg ttaacaacta catgcatatc tggtccctga aacttaataa 60 aacgaccaca atgccctttg attgtaagta aaaagactta ggacctagga cgaagagcgt 120 caaaagtcaa gccgtgagat atcctcgtcg caggagccca cgcattgacc ggcaacgtcc 180 ggtggtgtgc tgacgtagca gcctgaggtt gtggtggcgg gaccgacacg tgttcacatg 240 aagggcacat ggtcaaagta gtgggtgggc tcatgtgcat gtagaactga ggagagagct 300 taagtgctct caactccgtt acttcttttt gtagccgacg gttttcttcc gttagattct 360 cgcagcatct ccgtaagaac tcacagtcta cctccgtttg cttcagcttt gttcttgctc 420 gtctgttctg aaaccaaact tccacttgtc ttgctcttaa ccctaattgt ttagccaatg 480 cttgcttctg cttcgga 497 747 114 DNA Arabidopsis thaliana 747 ctagagcggc cgcccttttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt ttttttttta aggg 114 748 375 DNA Arabidopsis thaliana 748 tttttttttt tagcgattgc tgaacgacat tgatgagaat tttaatataa gcataaacat 60 cattttacgt tgcagaacca atggttcact accaaaagcc cctgaataag ccaaaagctt 120 gttcagcaac tacaatacct ctggtcaagc tatcttgaat tcgtgaactt ataacaccat 180 tttctcaggt gaagatgtca tcatctactc tagtaaaaag gagactagac ttacctaacg 240 aagattcaaa acaaaaccaa cccaaatgag ttagcttttc aagttggtac aagggacatg 300 atttgagtct tgatccgtcc catgcacgtt tggatttctc tgtagatcgg taggttctgt 360 gggcatcgtg gctgc 375 749 520 DNA Arabidopsis thaliana 749 tttttttaag taaagatgaa aatctcttat taatagagta atacaaatta caagatgata 60 ggaattgatc aacaagaaga ttacgcatct taagtaaagc acacagaaac atcaagataa 120 atagatactt atttatagaa gtctttatag atcgacacaa gatatgaatg aggaggttct 180 ctagggcttg gcgtctccat caaagccacg ttgaagaaat ccaacggatg atagatgtga 240 tacatcgctc cacgaatcga tgatccattt ttgatcacgg agatgaacca cattcactga 300 agcattcaag agttttccgg cagaggaagc ttgtgtgatc cttaagtaaa ttgccctcaa 360 cactcctcca tgagtcacca ctatcactct ctctcctttg tgcttcttag caatttgctc 420 aagagcatcc atggatctat cagcaagttg gtcaaagctc tctcctcctc ccggaatctc 480 gaggtcgttt tgggaagaga aaaaggcaga gtaagcttca 520 750 386 DNA Arabidopsis thaliana 750 agcttgatat cgaattcgcg gccgcgaaac ctcagattgg tcatcaatat cagacataga 60 tacaacgaaa gaacttgaat cttcaaaatc tcctgtgcca gaatcaacag atgggtcaaa 120 agatgaacta aacatatata gtcaagatga gcttgacgac aacagaatgc ttttggaaat 180 acccagtggt ggaagtgcat tttcttctgc tggaattcct gcacctttta tgtctgttat 240 agttaatcct gggaagattc ttgtccccgt agctgcggat cagatccagt gtcaagcatt 300 tgcagctctg caagttctga aggtcattga aactgataca caacctagtg atctatgtac 360 tcgcagagaa tatgccaggt ggctga 386 751 322 DNA Arabidopsis thaliana 751 acctacccag aaatcatttt tggtcacagg ggataggcgg gcagatttaa attttcttct 60 tttgttcttc tgtttgaatt tgtattgatt cgtgaaattg tgtttgtttg atggggtttt 120 tggtggatac gcaaaaggaa ggaggtggac attcatgggg ttacgttaga agtttggtta 180 gaaggaaaca agtcgactct gctaatggcc aatctcatgg tcaccaactt gctagagccc 240 tcactgttcc tcatctcgtt gcaattggtg ttggagcaac aataggagct ggagtttata 300 ttcttgtagg aacagttgcg ag 322 752 401 DNA Arabidopsis thaliana misc_feature (1)...(401) n = A,T,C or G 752 tctttaaagg ctttttttca ttgttcgcat acaaaaagtg aaacagaata gcaaaagaag 60 aaaagagata cacaagactc agtgtgtcat tattatgatc ggaaatgagt ttttcactca 120 agctccattg ttgacaataa aaagaaaaca aatcttggta acacagttac ttttgaatcc 180 cttaagaaca taagctcaaa gttgacttca aacttcaggt gtgtctgacc gcaaaacagg 240 tttctggggc tttccatcag cccatttgga gagagagaag tgaannttct cgcgagtaag 300 agcttcagct ttgtgtggct ccttgagaca gttcctcacg atattcgcac agatgtttga 360 atacgatata tatgtcatcc ccgccgctct ccagaacgga a 401 753 338 DNA Arabidopsis thaliana 753 tttttttttt tttttttttt ttttttttag agtgaaaaac cctaaatata caaagatctt 60 taaagacaag gttaagctgt tgtttgatat tcacaaacga ccacaagaca tatgtacact 120 catgtataaa catatgcaca tgtatatatg tgaatgtgat atatgagtta cagaccaaag 180 agatgtaaac tgtttttgct atataggact ctctacttac ctactccagc tccaattgat 240 gtcttcatga ttctcagtct tgtcacagac ccgaggaaca tctgccaagg aacatctcct 300 acaagcatcc aatctccgtc tttatcttga tatgttat 338 754 508 DNA Arabidopsis thaliana misc_feature (1)...(508) n = A,T,C or G 754 aacattgata aagatgctcg tgaaggtatc agtgctgatg tttgggaaga tgcttcgaat 60 ggtgctctta gtgctggcag tgagaatgaa gcagctgatg taacagagaa taatggtggg 120 aactttgaag atggatcttc ggaagagaag attgaacgtt tagagacgag gatcgagaaa 180 cttgaagagg agcttagaga agttgctgca ctcgagattt cgctctattc tgttgtgccg 240 gaccattgta gctctgctca caagcttcat acgcctgctc ggcgtatttc tagaatctac 300 atccatgcct gtaagcattt tactcaggga aagcgtgcta cgatcgctag aaactctgta 360 tctggtcttg ttttggttgc caaatcttgt gggaatgatg tttcgaggtt gacnttctgg 420 ttatcaaaca tcatagcttt gagncagata atttcgcaag catttggtag gtctcgcatc 480 acacaaatct ctgaaccaaa tgagagtg 508 755 146 DNA Arabidopsis thaliana 755 gaagaatgcc tcatactttt cgagcacaag aaggctgctg acagcatcct cgggggcaac 60 aattctcgtg gtcctgttag tgaaggagct ggatcaccaa agtactccga gcgactttct 120 cctgctatca acaattatct gtcaga 146 756 497 DNA Arabidopsis thaliana misc_feature (1)...(497) n = A,T,C or G 756 ctatagtaac taaattttta aaaatcttac aaaaaaaaat acaatccaaa ccatatagta 60 atctttctat ttcatacaca caatatacta aaaatacaaa gacaaaatga aatcttcaaa 120 gcaaataaca aaaccagagg ttttttttct tcttctaaat ctggtttcaa ggaatgtcct 180 taagctcaaa ttcagagctc tctttcttcg tcacttcctt ctccactgaa tcatcatcag 240 tcacaacaac agtaatcaca tcagctttat actgatgttt catggcaaac acaataaaaa 300 tcaagaagtt caatgctccc aagacaacaa gtaaccagta gaagtagttc aatctcgctt 360 tgttaaggtt acttctaagc cagcttttgn ntgnnnccct atcaacaagc gaaacaagca 420 agctactcac gaagaatccc atcgatatcg tgcttagaaa caatccggtg ctcatcgatt 480 tcatcctctc tggtgct 497 757 449 DNA Arabidopsis thaliana misc_feature (1)...(449) n = A,T,C or G 757 aaacgaacat gtagagcagc aacagattat acaacatttt ctcaaaattc acgaaactgg 60 aacaagaaaa cagatggact acacacgtgc gaacataaac aattacaaat ttacccttgg 120 ctcctaaaag ctagctttcc ttaacgacga gaaattaacg gagcttccta acggcgacgt 180 accaacctca atatcaaacg aatcatatcg ccggaaaatc tcaatcacaa acaacctcgc 240 caccaaaaca acaaaatcct taccggcgca ttgtttattc cccaccgtcg gagtctccgt 300 ctccggtcca ttcgaccaca acacatgcct caaaagcttc tctccttctt ctccgacgaa 360 tctctccggc acaaactcat ccgcccgnnn aaaaatcttc ggatctctcg tcgccaacgg 420 ttgataaccg taaagcattt caccggctt 449 758 503 DNA Arabidopsis thaliana misc_feature (1)...(503) n = A,T,C or G 758 tcgaggtcga cggtatcgat aagcttgata tcgaattcgc ggccgcttcg attctccatt 60 atcttccttc taaatgcctt ccctaatgtt atctgataag aaagaggaga agaagatgaa 120 gaagaagatg gctttggata ccccagagct tgattctaag aaggggaaga aggagcagaa 180 gctgaaacta tctgattcgg atgaagaaga gtcggagaag aagaagagta agaagaagga 240 taagaagcgt aaggcttccg aggaggagga tgaagtgaag agcgattcaa gctcggagaa 300 gaagaagagc agcaagaagg ttaagttggg cgttgaggat gttgaagttg ataaccctaa 360 tgctgttncn angtttcgga tttctgcgcc tttgagggag aagcttaagg cgaatggtat 420 tgaagctctt ttcccgattc aggcttccac gtttgatatg gttctcgatg gtgctgattt 480 agttggacgg gctcgtactg gtc 503 759 398 DNA Arabidopsis thaliana 759 aaagcacaac agctatagat tcatgataag ttgaaaaagg ctctcccagt agttttagga 60 tttcaacata taagctcaca cacccttaca cgatataacc ataatcatat gagagataaa 120 acaagcctaa agaaaaagaa gaaaagaaag cgcaaaattt ggcatgagtg tgatcgaatc 180 taacaaccat cacagcttca aagagacaag ttatccttgc gggtcttttc aagatctatt 240 gctcccatat ttgcgagcga cattagcatc caacagtgta tcccaaacat gtagctctcc 300 ctttgagcca ccaatagcaa gcaagaaagg gttgtccacc gcaaaggaaa tggaaaacac 360 agctccagca tttggttggt gtgtagcaat gcatgaag 398 760 520 DNA Arabidopsis thaliana misc_feature (1)...(520) n = A,T,C or G 760 actagtgagc tcgtcgaccc gggaattccg gaccggtacc tgcaggcgta ccagctttcc 60 ctatagtgag tcgtattaga gcttggcgta atcatggtca tagctgtttc ctnnntgaaa 120 ttgttatccg ctcacaattc cacacaacat acgagccgga agcataaagt gtaaagcctg 180 gggtgcctaa tgagtgagct aactcacatt aattgcgttg cgctcactgc ccgctttcca 240 gtcgggaaac ctgtcgtgcc agctgcatta atgaatcggc caacgcgcgg ggagaggcgg 300 tttgcgtatt gggcgccagg gtggtttttc ttttcaccag tgagacgggc aacagctgat 360 tgcccttcac cgcctggccc tgagagagtt gcagcaagcg gtccacgctg gtttgcccca 420 gcaggcgaaa atcctgtttg atggtggtta acggcgggat ataacatgag ctgtcttcgg 480 tatcgtcgta tcccactacc gagatatccg caccaacgcg 520 761 389 DNA Arabidopsis thaliana misc_feature (1)...(389) n = A,T,C or G 761 atcgataagc ttgatatcga attcgcggcc gcggcccttc aagctgcttc tttggtctcc 60 tctgctttct ctgttcgcaa agatgcgaag ttgaatgctt cttcatcatc tttcaaggac 120 tcgagtcttt ttggtgcctc cattaccgac caaatcaaat ccgaacatgg atcttcctcg 180 ttaagattca agagagaaca gagcttaagg aatctagcaa ttcgagccca aaccgctgcg 240 acttcaagcc ctacagttac aaaatccgtg gacggcaaga aaacgttgag gaaaggaaat 300 gtggtggtca ctggagcctc gtctgggnta ggtctagcca cggctaaagc tctagctgag 360 acagggaaat ggaacgtgat aatggcgtg 389 762 224 DNA Arabidopsis thaliana 762 ctctttcgtt aatctcaaac tcaatcatgt ctaccccagc tgaatcttca gactcgaaat 60 cgaagaaaga tttcagtact gctattctcg agaggaagaa gtttccgaac cgtctcgtcg 120 tcgatgaggc tatcaacgat gataactccg tcgtctctct tcaccctgca accatggaga 180 agcttcagct cttccgtggt gataccattc tcatcaaggg taag 224 763 247 DNA Arabidopsis thaliana 763 cgccattgtg tctgttgttc tctgcaatgg ggctgctcac ggagctgttg ttagagagtg 60 aacaaaatgt ggacttttgc aaaacccctg taggagaaga tccaaatgtt ggactattcg 120 ttgtactgtt tagtacttca cctagaggac ctcctaagga gtttccccat gagattggta 180 tccaagtatt cacctttttc acagtaggct cgattgttgt ttcatcggtt tggatcgata 240 ggtcaag 247 764 329 DNA Arabidopsis thaliana misc_feature (1)...(329) n = A,T,C or G 764 cctctagagc ggccgccctt tttttttttt ttttttacat aaaccaaaag tcttatttag 60 catcctttga ttgttacaaa cccaaatatt ttgctttgtg tgactagaaa attagaaatt 120 gttactttag gaactgcact taatccaaag tcagaaactt tgagattacc ctttgaatct 180 agtaacaagt tttgtggctt aagatctcta tgataaactc ctctgttatg acaataatca 240 acagcatcaa tcaattgttg gaaaagnttt ctagcatctg attctttcat tttctgtctt 300 ccaagtctgt ctgaaagctg accacctga 329 765 183 DNA Arabidopsis thaliana misc_feature (1)...(183) n = A,T,C or G 765 cccttttttt ttttttttat tttaattaga ttttattata ttattattga aatacttatt 60 tcntacaaca taacttttaa actgatgggg gaaaaaatta caaatgaaca caccaacttt 120 tttattagat agatttatct tccgttgtat acaatagaaa ctcgttaacc ttcgatctcg 180 ttc 183 766 406 DNA Arabidopsis thaliana 766 tgaaattgtt atccgctcac aattccacac aacatacgag ccggaagcat aaagtgtaaa 60 gcctggggtg cctaatgagt gagctaactc acattaattg cgttgcgctc actgcccgct 120 ttccagtcgg gaaacctgtc gtgccagctg cattaatgaa tcggccaacg cgcggggaga 180 ggcggtttgc gtattgggcg ccagggtggt ttttcttttc accagtgaga cgggcaacag 240 ctgattgccc ttcaccgcct ggccctgaga gagttgcagc aagcggtcca cgctggtttg 300 ccccagcagg cgaaaatcct gtttgatggt ggttaacggc gggatataac atgagctgtc 360 ttcggtatcg tcgtatccca ctaccgagat atccgcacca acgcgc 406 767 430 DNA Arabidopsis thaliana misc_feature (1)...(430) n = A,T,C or G 767 agatttaagt catatatggt ttccttctac aaacagaaac atgtaaccaa aaagtctcaa 60 caactgtgta aaaaaaacaa caaacttctc caaatatttt agttttcctc tgcctcaaaa 120 ttcaactact tggaagtaac aagacaagac aaaagacaag agagacgaga gagacgagag 180 aagtgtttct acatgttttt tctttttttc tttttacctt ttcttcaagt atctgtagct 240 gttggagagt tctcaggtgt cttcagagga agagctgatt tttctgctgc tttctccatt 300 ggtttactat ctttgtgttt gtcaatggct acacgaaact cttcaacaat tgnngggtct 360 ttgaacttca gtgcaaatgt agagagacct tctttgcctt cgcttacact attcacacaa 420 gcgaatgtga 430 768 537 DNA Arabidopsis thaliana misc_feature (1)...(537) n = A,T,C or G 768 cctctagagc ggccgccgac tagtgagctc gtcgacccgg gaattccgga ccggtacctg 60 caggcgtacc agctttccct atagtgagtc gtattagagc ttggcgtaat catggtcata 120 gctgtttcct nnntgaaatt gttatccgct cacaattcca cacaacatac gagccggaag 180 cataaagtgt aaagcctggg gtgcnnnatg agtgagctaa ctcacattaa ttgcgttgcg 240 ctcactgccc gctttccagt cgggaaacct gtcgtgccag ctgcattaat gaatcggcca 300 acgcgcgggg agaggcggtt tgcgtattgg gcgccagggt ggtttttctt ttcaccagtg 360 agacgggcaa cagctgattg cccttcaccg cctggccctg agagagttgc agcaagcggt 420 ccacgctggt ttgccccagc aggcgaaaat cctgtttgat ggtggttaac ggcgggatat 480 aacatgagct gtcttcggta tcgtcgtatc ccactaccga gatatccgca ccaacgc 537 769 457 DNA Arabidopsis thaliana misc_feature (1)...(457) n = A,T,C or G 769 ccagctttcc ctatagtgag tcgtattaga gcttggcgta atcatggtca tagctgtttc 60 ctnnntgaaa ttgttatccg ctcacaattc cacacaacat acgagccgga agcataaagt 120 gtaaagcctg gggtgcctaa tgagtgagct aactcacatt aattgcgttg cgctcactgc 180 ccgctttcca gtcgggaaac ctgtcgtgcc agctgcatta atgaatcggc caacgcgcgg 240 ggagaggcgg tttgcgtatt gggcgccagg gtggtttttc ttttcaccag tgagacgggc 300 aacagctgat tgcccttcac cgcctggccc tgagagagtt gcagcaagng ntccacgctg 360 gtttgcccca gcaggcgaaa atcctgtttg atggtggtta acggcgggat ataacatgag 420 ctgtcttcgg tatcgtcgta tcccactacc gagatat 457 770 525 DNA Arabidopsis thaliana misc_feature (1)...(525) n = A,T,C or G 770 cctctagagc ggccgccgac tagtgagctc gtcgacccgg gaattccgga ccggtacctg 60 caggcgtacc agctttccct atagtgagtc gtattagagc ttggcgtaat catggtcata 120 gctgtttcct nnntgaaatt gttatccgct cacaattcca cacaacatac gagccggaag 180 cataaagtgt aaagcctggg gtgcctaatg agtgagctaa ctcacattaa ttgcgttgcg 240 ctcactgccc gctttccagt cgggaaacct gtcgtgccag ctgcattaat gaatcggcca 300 acgcgcgggg agaggcggtt tgcgtattgg gcgccagggt ggtttttctt ttcaccagtg 360 agacgggcaa cagctgattg cccttcaccg cctggccctg agagagttgc agcaagcggt 420 ccacgctggt ttgccccagc aggcgaaaat cctgtttgat ggtggttaac ggcgggatat 480 aacatgagct gtcttcggta tcgtcgtatc ccactaccga gatat 525 771 291 DNA Arabidopsis thaliana 771 ggccgcgccg acggatgaag agccgtttgc acctaacaac cctaaaggct ttgttgggaa 60 agcccttggg caacctggat tgaagtcttc ggtgcgagtt ggggaaacgg ggtttagaga 120 agttgctgct tatcttcttg attatggtcg ctttgctaat gtccctccaa ctgctcttgt 180 gaagataact cattctgtat tcaatgtcaa cgatggggtg aaggggaaca agcctcggga 240 gaagaagctg gttagtaaga ttgcttcttt ccagaagttt gtggctcatg a 291 772 140 DNA Arabidopsis thaliana 772 gatgtatcta tcaccaggga gctgtcccgg tgtatattac ccagcgcgta agaggttacg 60 tgttgctgcg acgtcgtttt acagcggttt tgaggagaag caaacttcaa tcgatgtatt 120 gcctgaagag tgtttatttg 140 773 296 DNA Arabidopsis thaliana 773 tttttttttt tttttttaag gtctcaaaga cttattattg aagttggaaa gctggaaaag 60 gatcatgaaa gagtcatgaa accacagctc cttgaagacg catcacaaca ctgtaaccac 120 tgatcagtct acggcataga aagaaacaat agctcaaacg acttgttaaa actaaataaa 180 agacttcact tttgtaatac tacccggtat ttcaaacctt ttagccttga ctatagttaa 240 tctttaaaaa taaaggaatc ccaaagacgc agaaaaaaac attatggagg taagag 296 774 238 DNA Arabidopsis thaliana misc_feature (1)...(238) n = A,T,C or G 774 gcttcttcaa tccgccatgg atcttgaggc tgagatccgc gcattacagc ttgaatcggc 60 agatgaaaac aatggtgttg tcattccaga agttcataac tcacatgaag ttgagaattt 120 ggataaagca ccggaagact tgaaagatga agtgcaagaa tcaattccag tncctgatga 180 gcaagaagct tctgaggatc atgatgaagt aatgcttcat ccagtccata atccagcg 238 775 398 DNA Arabidopsis thaliana 775 ggatcctcta gagcggccgc cctttttttt tttttttttt ttttttatga gaaccgaatc 60 tgcgagctta tgcggaaata tatatacaca cgattcaaca aactgttata agggagatta 120 caagaaaaca gagggcaaag caacagcacc ttttccttat ttaatttcac taagactgga 180 taggatctga tcagtctgta aaaggtttgc tttactctac cttatctaaa agtctaaacc 240 atgtctttgc agctgctctt ggtgattcga atcttcgttg attcgtgttc ataaatctac 300 aaatcttgaa gagcaagagc cctgacgagt tttggggttt attcctcgtc ctcggagtga 360 tatgcagtat ttgaagtcat ctccgtctca actgattg 398 776 416 DNA Arabidopsis thaliana 776 cccttttttt tttttttttc taaattagtt taggaacttg agactttaaa atctcaaact 60 tctctttggt agcaacattt tcaaatgagt aaacatgttt attgtagaca taacataata 120 gtaagcattt atgtataatg catccatcaa gtagtagatg atacaatggc gtaaagaggg 180 aataaacggt gaatcaccat accggttgat tcagcgacat tggtttgatc ttctatatat 240 tcctccggta atctccaatc ataccgatgc actaagttag ccaaagtcac ctcaatcaag 300 atcacagcga atgatattgc tggacaaatc cttctccctg ctccaaatgg aatcagctca 360 atattgtgac ctcggaaatc aacagacgaa tctaaatgtc tctccggtct aaactc 416 777 195 DNA Arabidopsis thaliana misc_feature (1)...(195) n = A,T,C or G 777 taaggagtaa atggcgacag atgatttttt tagcttgcag agagaatatt ggcgacaagt 60 ggcggaatcc gatggtttcg atattgagag tgttcaaata ccaccatcta tgtatggang 120 gatcaatgga ctgattcccc acaactgtga aatcaatacg ccgcttcctt accgtgtctt 180 gggcaagcac tatgc 195 778 510 DNA Arabidopsis thaliana misc_feature (1)...(510) n = A,T,C or G 778 tcgacggtat cgataagctt gatatcgaat tcgcggccgc cgaccacaaa acaaagagag 60 agttggttcc ttgttcatga ctttcaaatg tgnnngtttt cttattcttc ttgccgattt 120 ggcgtgattt cttcacctaa tttggaatat agttatggtg atgcaatatt tgcatgtttg 180 atcttttgtt cggtaaaaag gcaaatcctt tggacatacc aaagtgtcaa actatatgat 240 gaaaccattc ttctttccct ctatatttgt cacttgatga tctgtactat tgaattgata 300 cagagttacc accaagaatt agatgatgtg tgtatattga cgtctatata aaaatcagaa 360 gttgttttgg catctaacct ttaaatttgt gaactctctg accaaatgta aataaaaaga 420 attgatttnn ntggtttggt tcggtttggc cttacacacg gaaactaatt ggacccgaat 480 aaaccgaaat tgaacaaaac cctaaattat 510 779 496 DNA Arabidopsis thaliana misc_feature (1)...(496) n = A,T,C or G 779 tctagagcgg ccgccctttt tttttttttt tttttttaga aaaaactaaa ttgaatataa 60 atttaataca ccatattttt aaaaatatga aatcctgcac gtatgtcggg tctaattaaa 120 gcgcgaatga catttgtagc ggataaaaca gaacaagtag ttcacgtgat tttcccgaag 180 gaagccccta tggagaagct gagtttccat ctcactctgt atcgtgatag taggaacgaa 240 tcgcataagc ggcttgcgtc atggtaagaa gaataacgaa aacaacagca aaggatgaca 300 gagcagtcca tggtgactca aagtgcgtgt gcctaaagcc agcccatact ccattgtacg 360 ttttggaggt gtactcgtta actccctcaa acacattccg taagnnnctt ctacgtgtgt 420 caaatacaac atctttacat atagttttga aaaactgtga tacctcattc tcgttgccaa 480 agtagttctc tatgat 496 780 157 DNA Arabidopsis thaliana 780 tccgtcggtg tgctagtctc actgacacta catccgatcg tcgccggtga cattttataa 60 gtgtggagtt tacttcagct ttattattca ggaattgatg gatcagtacg agaaagttga 120 gaagattggt gaaggaactt acggtgtggt ttataag 157 781 283 DNA Arabidopsis thaliana 781 cattggatat ctattggaaa aatgagttac agagaaaggc tttgaaaata atattctaaa 60 cctaagtata agaaataata aattcagatc agagaagaag taaagaatct aaagagagat 120 gtcatatgtt tttcatatag gagctgtgca agttgttctg aaatggccag cctgattaca 180 ccggctacat cgaacaaccc gcttttgacg tccacggtcc tctccttgac ttctcctctt 240 ctttggccgt ggtggttgtc ttaaatccct aggtggtctg ata 283 782 405 DNA Arabidopsis thaliana 782 cccttttttt tttttttttt aaagatttga acaaatctat aataacataa catattacag 60 tgtgttatta acacattttc gtgtagacaa gtaacagata tgtctatcta tacagactta 120 tttttgagac ttgtacacac aacatttgaa gatccctcat gtatgttagg ttgtagtaat 180 cgtcactcta tatacatctt ccgcatccta tacatcctct tcctttctaa acatctctct 240 actacttccc catatggttc acatcaccca gtaccttgct cagtttctgc gatttcattc 300 atagtcttga acggaaaaag cgtttcttaa aaccaagatt tgagttctta cgggaggagg 360 acgtggcata tggttgaccg ttgagacaac ccgcaaatct gatat 405 783 275 DNA Arabidopsis thaliana 783 ctctgcagca gataaatgaa gaggcaagtg atgacgtttc tgatgattcg atggtggatt 60 ctatatccag catagatgtc tctcccgatg atgttgtggg tatattaggt caaaaacgtt 120 tctggagagc aaggaaagcc attgccaatc aacaaagagt atttgctgtt caactatttg 180 agttgcacag actgattaag gttcaaaaac ttattgctgc atcaccggat ctcttgctcg 240 atgagatcag ttttcttgga aaagtttctg ctaaa 275 784 286 DNA Arabidopsis thaliana misc_feature (1)...(286) n = A,T,C or G 784 gagctcaacg gtgatgggat cttggcttcc ccagtattgc ttcctcttca tcttctactg 60 tcactcccac aataccaatc acttttcctg atatcgttag ctgcattttc tccgaaactc 120 actctctnnt cctactcagg atttgaactt cttacgtttt gaacccggct gctcagagta 180 acttgctctg gtttttcttt aaatcaccaa aatgggttcg agatacccat ctcatcagct 240 cagcaatggg ctatttgtgt ctggtcggcc tgagcaaccc aaagaa 286 785 572 DNA Arabidopsis thaliana misc_feature (1)...(572) n = A,T,C or G 785 tctagagcgg ccgccctttt tttttttttt tttttgaaaa aaccatatat cattaattta 60 tcacatcata aacagagagt tataagtttg atgtcaaatc atagtttgtt gtgagaaaag 120 aaaaaaaaaa acataaacct taaacatata tggggtcatc aacatatcac ttactactac 180 aacatttgac aacttgttcc ttcggatcat gcatgagttt tacttttaca aacagattct 240 gcaaacttta aaagaagttt ctaatctctt ctgaaaccga acaaggtttt tattagttac 300 ctccaagcac aagaagtgat aagaggttga ttcttccatc ctaaatacaa tgctccatct 360 ctttcttcaa gtgtatactt ctctgaataa ctctcaagca atcctttgat tgttgcgttc 420 acatacgagc tcaaaggata cggtttaaat cccgccatgt gnnnnngaga cctccatttc 480 cctagtggct cgtgcctctc ttctctttca acaccttcac aagctataag attcacaacc 540 tctctagcca aacaatgctg ctcaacattg at 572 786 380 DNA Arabidopsis thaliana misc_feature (1)...(380) n = A,T,C or G 786 tctagagcgg ccgccctttt tttttttttt ttttttttta accaataagt ggcaaaacac 60 ttcgttagtg tacagatcca tagtacaatt tttaaaagga aacactgatt cgagttttta 120 ccacataaag atgctaataa ctcaacgaag aagatcctga aaagttttca tgaagaagac 180 cgcatgtttt caaggtctga gagcggcttt gtgaaccatg gtttccttgt gaatttggtg 240 gcaactcttt tccacaagat ctagaagctt ctccaaattn nctgcccacg agtttagaat 300 ctcgttgctg tcctttgcga tctggaagca cacaattcca gatggtctgt ctatttttgc 360 aatcagtgct tttgacacta 380 787 346 DNA Arabidopsis thaliana 787 tcctctagag cggccgccct tttttttttt tttttggtaa aagatccatc cttttcatta 60 cgtacaaaga aactattaac cagtcttaat ctcaaacaca cacaaacgat tctgttaaag 120 aagtcatctt ttaagaatac ataactaatc tatcttcact catacatgat catcataaag 180 tttgggtgga ctcttcatgt tttggagcca tggagtgtga agaatctgaa ggctctctcg 240 taggactcga tactgaaggt tttcttgtag gacttgaatt tgatggcttt gttgtaggac 300 ttgaatctgg tgtggccata tgagatgttt ggttaggact agtgga 346 788 372 DNA Arabidopsis thaliana 788 tttttttttt cacacaagtg accgtgtatt ttattgcaca agacttgaac tcgttactcg 60 tcacacgctg cagcacactc aatgacctca ttgtcatcgt tgcacacgtt cacactgcta 120 ctcatacacg atggtggtga cgctgctctg actctgaatc tgactcggtc cagccctcat 180 ccctgccccc tgtccaactc gccacaacca ccgctggcct cacctcttcc tcctccatcc 240 tctccttcct ctcctccctc tccctccacg gatgacgtcg catgccgtaa taggactgtg 300 tggagtagga ctgagtggag caggaagaag gcttagcatg gaaatgctcg atttctgcac 360 ggagacgagc ga 372 789 186 DNA Arabidopsis thaliana misc_feature (1)...(186) n = A,T,C or G 789 ttggatcctc tagagcggcc gccctttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttg caaaacggcc aaaagtgtat gnattgagtg 120 atgagacaca gttataaagc ggttacaaaa ccggactagc cggtataatc cattaaacag 180 attctt 186 790 433 DNA Arabidopsis thaliana misc_feature (1)...(433) n = A,T,C or G 790 tttctgtgag attatttcgt gttgatttca aacttgaaca agaaaagtgg atagatattg 60 tctcttgggt tgaagccaaa gaaggaaatg ataatatata catacacaca cacacacaca 120 aaaatcaaag aaggaagttt tataggatta tatatatagc tagagagtct catttcttgt 180 atgtttctgt ttaatcttct cttttgtctc ctttttttat cagtatatgt ctgtatgtat 240 ttatatatat agatctgaat atagtttgtc gatttctaac ttatttcgcc tcttcttatt 300 ctttngnttt ttgctttaag ttttnnnttt tgtgtgatga tgaacaaaga catgttactt 360 caccagcatc agcaaccaca acaagacgag aatatgtcga atctaacatc agcttccggg 420 gatcaagcaa gtg 433 791 432 DNA Arabidopsis thaliana misc_feature (1)...(432) n = A,T,C or G 791 tttttttttc ttacaacaaa ttcagatttt attcgaggac tcactgtttt tttttttttc 60 tttagttaca cccaaatata caaataataa aaaaagaaaa gagattatga cacaccatta 120 cttactttaa tcacaacata aataactata taagaattta tttatcaaag gagctttaat 180 tacaaagctc aattcacaag tccagggtcg aaactaacgc ccgttgacgg caaccatata 240 ttcccgtcaa taaaactcgc cacagtgaat ttttccgctt ccgtcaccgt caaagacgga 300 tgacacccac tccatttaac ccgacccgaa accgatgatc caggacccga attnncatat 360 tctccgtaaa acagagattt gagaccgaaa ccacccgacc aaggagacca acccgacgga 420 tgaatcgacc cg 432 792 431 DNA Arabidopsis thaliana misc_feature (1)...(431) n = A,T,C or G 792 gtcgcatgca cgcgtacgta agcttggatc ctctagagcg gccgcccttt tttttttttt 60 ttnnngtaaa aagcaacctc aaaggtcaga agtaaaatta ttgagatttt acagcacagt 120 tttggtaaat attaaagcac acggcatcag agattctgca acacaaacaa gaaataacat 180 cactaaaaac cagacacaca ttggcactaa tttctacgct ctctctctct ctaaaccgaa 240 gataagagat tctctgcaga caagacaata tagaatatta attgnnntct ctctctcacc 300 ctctctcttt ctctttctct ctctccctat taggtttcat tgaatctaaa acggaaaatc 360 ctcgggatta cttgccagta aagaaagggt ttacatatag ttgaattggt ccgaaactga 420 ggcgatgatt a 431 793 155 DNA Arabidopsis thaliana 793 cctttttttt tttttttttt tttttttttt tttaactaca tcatcatttt ctattaaaca 60 gaatattttg aagtaaacat tacataggaa ttcgatcaca atgtagtaga tattacaagt 120 tccaagagat caatataaca atagaagtta tggac 155 794 538 DNA Arabidopsis thaliana 794 tcgaggtcga cggtatcgat aagcttgata tcgaattcgc ggccgcggga aaatagcaaa 60 agctcggttt tagtttctgt ttagaaagag gatacagaat agtgattact aacatcttct 120 ccgatggcgg ttgcgccggc aagagctcgt tcagactatg attatctcat caagcttctc 180 ctcatcggtg atagcggtgt gggaaaaagt tgcttgttac tgcgtttttc ggatgatact 240 ttcaccacga gtttcattac taccattgga atcgacttca agataagaac agtcgaactt 300 gatgggaagc gtatcaaatt gcagatatgg gacactgctg gacaagaacg ttttagaact 360 ataaccacag catattacag aggagcgatg ggtatattac tcgtctatga tgtaacagat 420 gagtcatcat tcaacaacat taggaactgg atgaaaaaca ttgagcagca tgcgtccgat 480 agtgtcaaca agatattggt cggtaacaaa gccgacatgg acgaaagcaa aagggctg 538 795 415 DNA Arabidopsis thaliana misc_feature (1)...(415) n = A,T,C or G 795 tttttttttt tgcgaaacag agcatgttat ttattgggta agtcatacaa aacaaaacag 60 aaaaaataca tcaaactaaa acagaggtaa cacaacacaa agtacaagaa caagtagaca 120 ttaaaatcaa agccactctt ggaaagtaac tccagtgggt ttcaaccata atcctccttg 180 aataagcttc gccannntga attgttcggc ctcttttgag tctttaataa ctttaaatcc 240 cttccaattc actctcttac tcgtatccgc tccaggaccg gtatttgcat actctccata 300 atacaatgtg gagagcgcaa actcaccatc ccatggnaac caaccagccg ggtcaatgtg 360 gttgtcaatg aaagactgca tgatcactgt tcttgagtac aacttccacg gtcga 415 796 109 DNA Arabidopsis thaliana 796 cgtacgtaag cttggatcct ctagagcggc cgcccttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt tttttttttt ttttttttt 109 797 561 DNA Arabidopsis thaliana misc_feature (1)...(561) n = A,T,C or G 797 cctctagagc ggccgccctt tttttttttt tttttttttg aaggcaatag tgtaatgaaa 60 tcgttcaaga ttctggactt agtttcaaga cagtaaaaat aaaatgtttc atctctctgt 120 tattgcacta agcgtttaca ttgagatgtc cgtacttttg catgactctt tttgtcgcca 180 tagcagctgc ttcacttgct cgtaatgtgc cttgtgccat tagagctgca aattcgcttg 240 taatctcttc ctgaatcttg gccctagcat cacccaacgg ntcgtccttg accttctctt 300 tactagctga tggttgaata acaggtggca ctttctcagt tgcagttgnn ntttctgctg 360 cctcgagctt aggagctatc acaatttgtg ggccatcatc tttactaaaa gctccaaaag 420 gttgtggctg tggcctaaac tgtggaactt gaggaacagc accagccttt agagttgttt 480 cgaggccttg caacataggc attataagac cacccatggg actgtttaga acatcattag 540 gaagctggag aatgtagtca g 561 798 201 DNA Arabidopsis thaliana 798 gattcaacat ctcctttaaa attctctgtt cttttgtatt cctaatcttt aacaatttaa 60 gaagaaatgg attcgaattc atggatcaat tgtccccctg tgttttcatc atcgccttct 120 tcacgccgtt accaatctcg atcagatttg tatttgggag atgttgaagg agaagacgat 180 ttgaaagctg agtttatgtg t 201 799 468 DNA Arabidopsis thaliana misc_feature (1)...(468) n = A,T,C or G 799 tttttttttt ttttttttaa caaggtatgg ttgacaagta aaatcagaga atacagaaca 60 aatagaagtg agtaagttct tgtttaatat ctgcaaattt gtaacagagt tcttgcttct 120 atctcaaggg tagactagtt ttggttagtc gcattgagcg acaatgtttt ttgtttgtct 180 tttggatctg tagcagaacc aagaacagga tcgtgtctga gtagtctatt gctgtttgct 240 gctgtcagta ccatcatacc gaggaagatc aaaactgaga tagatgagaa gataagcatt 300 aagccagaac cgaccggatc tttcacctct tgcgcatact gaaccgagtc taacgcaagn 360 nnagtgagtg ggaacgagta agcccaccac gcgacattga atcttttcat tgatttcttg 420 aaaagatttg gcctacagac cagggacatg aagatgaaaa gtgaaagg 468 800 424 DNA Arabidopsis thaliana 800 cctctagagc ggccgccctt tttttttttt tttttttttt actcagaaaa caaacttact 60 ttgttattat tattaaaaaa aagacctgat ttcactcatc tctaaagcca attaagaaga 120 aaactacaag agttatattg tagtggcaac agcttctgga tgatgaggta gtatctgatg 180 agccgtgggg acattgttct tcgacttgtt agctacacgg cttgctcttg attccttcac 240 cggtgtcacc ttcttagtcg aggactcggc cagaaccttc ctcacctcgt ttgccagctc 300 tataacatag tcctcctcat gcccaatgtc gtgcattgcc ttctcgagca ggaagagata 360 atctctgttg ttaccacatg gtccattggc tgtcgcgatt tgtcttgcca tgtcttctaa 420 tggc 424 801 310 DNA Arabidopsis thaliana misc_feature (1)...(310) n = A,T,C or G 801 ccgctcttac cagcgcttgc ttcctgaatc gcagtctctt ctcgcttccc gccggtcagt 60 tataccggtt gnnntctcta gagtgaatca gttcgacgcn gcacgactag atgtggaaat 120 gtcagccatg ttgaaggaac agctcgttaa ggttttcact ctgatgaagc caggaatgct 180 ctttcaatac gaaccagagc ttgatgcttt ccttgagttt ctcatttgga gattctctat 240 ttgggttgac aaacccaccc ccggaaacgc tctcatgaat cttagataca gagatgaacg 300 aggagtcgtt 310 802 261 DNA Arabidopsis thaliana 802 cggccgcttc atccatggcg gctcgtagag tgtcttctct tttatctcga tctttttcag 60 cttcctctcc cttactgttt cgttctcaag ggagaaattg ttacaatgga gggatcttaa 120 ggagatttgg aacctcttct gctgctgctg aggaaatcat aaacccatct gttcaagttt 180 ctcacacaca gctcctcatc aatgggaact ttgttgactc tgcttctggt aagacgtttc 240 cgactcttga tccgaggaca g 261 803 142 DNA Arabidopsis thaliana 803 ggatcaagaa agaagaattc caaagctaag aaagagtcgg acaaaaagaa atcaggcagg 60 catactgact caactgttcc tgtattcaac ctcgatgaca tagaagaggg agttgaaggt 120 gctggttttg atgatgaaaa gg 142 804 434 DNA Arabidopsis thaliana 804 aaaccagaga agaaaccttc tcaaaccatt cccctttcat caaacaattt ggttgatcaa 60 agcaaagtgg tatcacctaa accgggaata caagaacaca atgggaagat tggagaaggc 120 ggcgaaacta gactctttag tttcctaagc cttccaagat cgcctggaaa agagagcaat 180 gatgattttt ctgatgatga tgacgaaaac aacaatgaga ttggtgtaga gctcgatctc 240 gaatcagtaa tgtctgacac ttttgtctct gtcgggaaat accgagtcag atcgggttca 300 tccactatac taagtgctgt catcgaaaag cacggagaca ttgctcaaaa ctgtaagctg 360 gaatcggatt caatgcgatc acgttacctc gagtgtttat gctcactgat gcaggaactt 420 aggtcaaccc cggt 434 805 128 DNA Arabidopsis thaliana 805 tctagagcgg ccgccctttt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt ttcaatccaa ttttcatacc atatatcaag aaagatgaac 120 aacaagag 128 806 576 DNA Arabidopsis thaliana 806 tttttttttt tttttttttt tatctctggt tttttactcg ttctccatta ttaatttatg 60 acgtttaaga aagactcaca aacaagatga ataaatgata caaggggatt ttatggcata 120 tgcagatttt gttttgaagt aataatgtaa caaatcgaca ttgaagtacc ttccacaatg 180 cgcactatgc acaagaaaag actcgtcaaa agcaaagcaa aaggtgggga tggctcttaa 240 ggtcaacagc ttaagaatct tgaggagtct cgaatctagt cggtgtatcg atacccgcca 300 tacagcaaag tccactgatc aagatgagaa gaaaaacgat tcccactagt atgccctcca 360 aaagtgatga cttaaatttg cagagttcat cacagccagt agcaatttca ggagtactgt 420 ttcctttagc agtttcagct agaaaccttt ggagagtttt gtaagatgtg taccaataag 480 gatcagaaac ataaagagct gtatatttac tgccggattg ttctacagaa ctaacaagtt 540 ccaagaagct ttcacgctct gaatgtgact gtccag 576 807 333 DNA Arabidopsis thaliana 807 tttttttttt taacaaggaa agagacgtgt atatacataa gctcatattt ctttgtacaa 60 aggaaccgag tttgtgtatt gtcgaagtgt taaaatctct ctaacctaaa tccgatgatg 120 tttcatctta accaaaagac tataaaagca tcgttacaca cacacacacc acacacaaac 180 gccagaagta cgtttcgtag taaaactcaa atgcaaaaga aataatctta tatgacctga 240 accaagagtg gttggttctg tagactttct aacagtctgg aagcgagttt gcagaggcgt 300 atggagagaa agttccagct gattcactgt aac 333 808 145 DNA Arabidopsis thaliana 808 ctcgaggtcg acggtatcga taagcttgat atcgaattcg cggccgcgga ttttatctga 60 tcactcgttt tgtgtctctg aatctctatc ccgtggattc gcatctggat ttgttttttt 120 ttcattttta ttcgagcggc taacc 145 809 354 DNA Arabidopsis thaliana misc_feature (1)...(354) n = A,T,C or G 809 cttttttttt tttttttatt gaaagggtat acatttttcc attgcaccac acatatcata 60 tgtgacttaa aacaacaaaa attgcgtaat agttgtagga atttaattat tagctagata 120 tatatatagt tcgtaaannn tgattagatc agactactac atgttggagt tggacgatgg 180 gccagttgat gaacaactct tcataaaggc ctcaacggtt tcgtacaggg ccttagcttt 240 gttcccatca aacaactcac aagcatgaaa cccatcttta tcaaacctcg tctccacgtg 300 aactccacgt ccctttaaca tctccgccac gtgtctctga cgatccacta aagg 354 810 579 DNA Arabidopsis thaliana misc_feature (1)...(579) n = A,T,C or G 810 cctctagagc ggccgccctt tttttttttt tttttttttt tttgggtcgt aagacgattt 60 tataaaaggc ctcaaacgga catagaaaac agtacatatc aaagcccaat aggcccacac 120 attggtttat caattattca acttattttt gactgaaaag ggaaaagttg atgagtcttt 180 agtgtttgtg ngactggata tcttggcttc atcaatcctt ttatgtttaa agacttcttc 240 tatcttgaaa caggttcact gcgagctgag tggtttttac ggatgattac ctcttgcggc 300 atatggtcat accatcgccg attgatacca tactaatgct tacacgttga tcatccatta 360 attttttgtt gnaatttctt aggctgatgg tcctctcatc attcaccgcg gacgcgtggg 420 tcgacccggg aattccggac cggtacctgc aggcgtacca gctttcccta tagtgagtcg 480 tattagagct tggcgtaatc atggtcatag ctgtttcctg tgtgnnnnng ttatccgctc 540 acaattccac acaacatacg agccggaagc ataaagtgt 579 811 242 DNA Arabidopsis thaliana 811 aaacaagaaa aaggaggatg gaatggaaaa aagaaaagag ttggagagga ggtcggcaca 60 acaaagatgg tatgtctcct aaatcatcct ccgaccaaaa caccaacaca aaactaatta 120 aattaaattt gggggctata tcacgtcatc aaccgcgtaa aagtacaaag ccgacgagat 180 ctagtggaga agcttttaca accgaagctt gatgatgcaa agcaagaaga agaacaacac 240 ac 242 812 531 DNA Arabidopsis thaliana misc_feature (1)...(531) n = A,T,C or G 812 ctagagcggc cgcccttttt tttttttttt aaaccaacac ttctcttacc actcaagaat 60 cgatacattc attaatattt tactaacatt atacaagtag agtggcgann nnnnttacaa 120 gaaacacata acgtgcatag aattctgagg ttataaactc attgctctgc tttaatcagc 180 ttttgccatg tcctatactg attgatgtag taaaatgtgt tgtagatggt tagtatttta 240 ggacttctcc ctcattttgg ctctagcaaa tacaactcca gcgacaagac caaagagtat 300 gcttgctgag ttctgcaaac tggtcggtac attgaaaaga acgatccccg cgatggatag 360 aggtatcttg tttagagatc ccaccaggct gtatgttgtt gctccagttt gatgaagaaa 420 ccacattgaa gtaaagctaa tggcaagccc tagaagtcca ctaagtgtca tgaccatcca 480 gaaacttgcg gacgcgtggg tcgacccggg aattccggac cggtacctgc a 531 813 432 DNA Arabidopsis thaliana misc_feature (1)...(432) n = A,T,C or G 813 ggatagggtc tttctctgtt tatcccaaag agaacaaaac tgagaggaaa agagataacg 60 aacaatgtct actactgtct atagcctatc ttttcctcat ttgttaacat tactttacgc 120 cagatacagc agcatgtgga ttacatatat gtatannntt atagtnntta ttcatatcct 180 gtaggctgtc tttgcgtcag ttatgctttg tgtccatttc ttctttgtct ctttttgtct 240 cttcgatgca agcatctgga acgggttagg ccctctatag ctctcctctt taatccttat 300 cttctttttc ttccctcggt catattcttc atcccactca tccgctacat aaccaatgct 360 gcttgcgcct tcactctttg atcccctctt ctgagaagct gaaatttcct catcccattt 420 ggcaaccact gt 432 814 499 DNA Arabidopsis thaliana 814 cctttttttt ttttttttga cgacaatcac aaaagaatgt ataaaaaaga aacaacacag 60 ttaaatgtac aacaactcaa acaacacttt cagctaatat tattcaggat caaaagaaac 120 cccaaaacaa atgctgaaat ttacattgaa cattcacatt acgtggttaa agtgtcagga 180 agagccatgg aatgagctcc aatgatctta ccaccaacat ctgggaaggt ctcgtaatca 240 ggaagagggc ttactttacc atcaacgtct acttgtagag gatactttat taagtgacct 300 tgtagctctg agaatttcgg gtctatgaat cttttccagt tttcttcaga gattgtgttc 360 accttcttca gacattccag atctgatggc tccacaaact catctccagt tttgcctaaa 420 tgctctgccc atagtgacat tctgtatcca tacacctggc cacgtgggtg tcttcccttg 480 tgagcccatg tatgattag 499 815 471 DNA Arabidopsis thaliana 815 ggatcctcta gagcggccgc cgatttctac ttactcacca ccagcaaatg cgcatgcata 60 atgtcgctgg ccgggcgacc gtgcgccagc aaatcagcca ttgctttaag atatggcggt 120 agatggcgga aataacgctg atacccggca cacaaataat tcagtcccgg tttgccgctg 180 gcatcgagca tgaagcggtg tttcgggcag cctccccagc acgcttttaa cacgttacaa 240 ctgcgacact gcgccggtaa ctgcttaaat ttatcttcac caaacgcctg ctgttgcggg 300 gaatcgatca tttctgcaat tgtttgctgg tgcatattcc ccagccgata ttgcggataa 360 acatagtgat cacaggcgta aacgtcgccg ttgtgctcaa caatcaccga gcgcccacag 420 gttggctgat gatggcaaac cgcacccggc gcaccgacaa aattggcaaa c 471 816 352 DNA Arabidopsis thaliana misc_feature (1)...(352) n = A,T,C or G 816 tttttagaac aaatccaata aacccataca tttaccaaga aaatattaaa acataagnnn 60 catgacaaag tcatatatgc aacatgaaat ataagataaa gaaaacaaac tcttagatca 120 ttttgcagac aacgttatac gacgaataat caaacaaacg aaaaatgatt ctccaagaac 180 atgttaaatt tcatgttcat cagaagatca taattagtag taagtaggtt cagacgtgta 240 gaagaaagga ccagcccagt aaagcttgaa gctcttgtct tgaagaatac ggtacgtgct 300 caatggctgt cctctaacac ctttgttcac atcggtcgga aaatcgcaat ca 352 817 426 DNA Arabidopsis thaliana 817 ggatcctcta gagcggccgc cctttttttt tttttttttt tttttttttt tttttttttt 60 ttttttcttg tccatggaca aacacatttg tatcctcaaa ataagaccat ccaaaaagga 120 tccatgagaa aacttaaaac aatgaaacca atgtactctt tcagataacc aacatgaaaa 180 aatatttcac ccaaatctct catatcaccc gacactttag actcaaaaac tattagaccc 240 ataacgactc agcattcagt aaaacccgac cccaagcgat cccccaacca cttgatatga 300 ctcgacaaaa catgtataga tagatagtgc caagacaatg gtagactcat gatgcatcaa 360 aacatttcga ggcttaatta cctcgccagg atttggcaac ttaaatgatg acgcttctta 420 tgttga 426 818 534 DNA Arabidopsis thaliana misc_feature (1)...(534) n = A,T,C or G 818 ggatcctcta gagcggccgc cgactagtca ttggagaaca gatgattgat gtcttagggc 60 cggagaaacg cagacggcgt accacacagg aaaagatcgc aattgttcag cagagctttg 120 aaccggggat gacggtctcc ctcgttgccc ggcaacatgg tgtagcagcc agccagttat 180 ttctctggcg tancaatacc aggaaggaag tcttactgct gtcgccgccg gagaacaggt 240 tgttcctgcc tctgaacttg ctgccgccat gaagcagatt aaagaactcc agcgcctgct 300 cggcaagaaa acgatggaaa atgaactcct caaagaagcc gttgaatatg gacgggcaaa 360 aaagtggata gcgcacgcgc ccttattgcc cggggatggg gagtaagctt agtcagccgt 420 tgtctccggg tgtcgcgtgc gcagttgcac gtcattctca gacgaaccga tgactggatg 480 gatggccgcc gcagtcgtca cactgatgat acggatgtgc ttctccgtat acac 534 819 105 DNA Arabidopsis thaliana 819 tcttctgaag cattatacta tatatgcaac tatagtatat atacatgaac aaaggtaatt 60 aagagaatca gttagcttcc ccagccaacc atggtaccag tagct 105 820 575 DNA Arabidopsis thaliana 820 ttttttttta taaacgaaaa acataactgt gttcagatct cgaatataca tttccaaaac 60 gtgacaagtt tatgtttttt tccgtatgtt tgcttaataa cactcacatt attgttctaa 120 cagatataaa tggttgagaa ttgtacagag aagaatctac agaccatgaa tcatgtattg 180 tcggctgttc tttgagcttc tgctgttcac tgtttgcaat tttatcctcc tcttctgaga 240 agggtttgaa tgaggataga gaaactgatt gaaactcttg agctaagcag tactatacct 300 aggagcccat ccactatccg aaattcttgc tcaagcccat gaaccctctt acttagctta 360 ccgtatttat ctttcagatc ctgccattac atcaaacaaa ccgcagcaac tcaaccacga 420 cgttcgaaaa actggtggac cagaaggcaa aagactcttt tctttagaac attctggcac 480 ttcatattct ttcacattct tgatttcttt gttagtttcc tcagcagatc ttggactaag 540 gatctcttcc ttttcatcag acttctgttg gagag 575 821 567 DNA Arabidopsis thaliana misc_feature (1)...(567) n = A,T,C or G 821 ttttttttga taccaaagaa acagatgact aaagacaaaa aaaaaatctc agggcactcg 60 agttaagtat ccctaaagag atctctaaac atatttaata aaaatcaggg aggttcaaaa 120 acagaatcct ctctagtctc ttctacttac taccagtaac tgtaagttct atcctgatcc 180 tgaccattgt taaattctgg gttagtctcg taatttacat acatactctg atcgtaataa 240 tcatggggcg gatacggtgc tggaatagga tatagtgatg gtgttgcgtc cagcacgacc 300 gnnntgttgt gatttgtttc ttgctccacg aaataccggg tttcgggttt ggtacctgag 360 aacattctgc aagcgacagt gttgtgtggc gatggctcta cgttgtggta tacgttgttg 420 aagatggcga aaggagaaga agagtctacg acgtggcaaa catctgtgta gtctatggtg 480 ctgaaagagt ctctggttga ttctgtggtg aaagaagcct cgtctgagct tgtgaagaga 540 gaccattcgc ttgatgatga ctctgtg 567 822 103 DNA Arabidopsis thaliana 822 ggactttaga gagcaaactt cccatcttat gacatccttg actaaacgaa atgtaagacc 60 ttcgcagaaa attgctcaaa gaaatagtca tcaagaccct cca 103 823 211 DNA Arabidopsis thaliana misc_feature (1)...(211) n = A,T,C or G 823 tgcactggag gatcaattac tgagaacgcc cagagatttt tctgggaaat ttgngntgaa 60 gctgctgcga atggtaacgg atcatacgcg aagaagttac tgaagaaact cataaatgaa 120 gttgagttag agaatggtga agtattggat gaagtgtatg aagagtatgc tctttacatg 180 ttaacttcta aggaagatat attggtgaaa g 211 824 201 DNA Arabidopsis thaliana misc_feature (1)...(201) n = A,T,C or G 824 tttttttggg ggagccaaac tcaaacttgt atttgattga agaaaaagat tctgaagcaa 60 agatacaaat tttgttggta catgcaaana ntcttatcct acagagagag ctacaaagac 120 ttgacgatgt tttcttcaat acaggctgaa tccaaagaac tggctgacaa taattgccaa 180 tccaagtcca atggccacaa g 201 825 197 DNA Arabidopsis thaliana 825 tttttttttt actccataga taaaaccaaa gtcttgaaaa ttgagaatac gggagaacga 60 tagtcattca taaaacaaag ggtacaagtt tggataaggc ttataaagca ggagaagaac 120 ctaaaatctt cctcggcctc taaagcttcc acgagagcca ccgcgtggtg gaaatctacc 180 acctcttgga gcacctc 197 826 260 DNA Arabidopsis thaliana misc_feature (1)...(260) n = A,T,C or G 826 aaagctaaac aaaacaatac caaatatgac taaaccaaaa tttgccaaat aagcagntat 60 ttctagttat aacatcacga gtcaccagtc gatacattaa atttaaagtt gcaactagaa 120 atatattgaa aaacagaagc agtcacgagc gaaatctctc atgcttccac cttctgagat 180 ttgttccagc gaccacccgg tgaatctgat cccctctttc tcccgaatct ccctcctctt 240 cttcctcccc ttcctccacg 260 827 441 DNA Arabidopsis thaliana misc_feature (1)...(441) n = A,T,C or G 827 tttttttttt tttaagaaaa acctagatat gaaattcaaa caagttcaac ataagatcca 60 caacatccaa aaacaacttc caaattccaa aaaaaaagca gtattcaatt caaaatgata 120 gagatcgaga tgaaaatcat tcctgagctc cttctttctg gtaaacgtag gtgagaccac 180 acttaccaca gtagtgacga tcgnnntgac tcgccatgaa agtcccagca ccacaggttg 240 cgttagggca ctccttcctc aaacgctgaa ccttacctga accatcaacc ttgtagaact 300 gaagaacagc gagcttgacc ttcttgtgct tgtgcttgat cttcttaggc ttggtgtagg 360 tcttcttctt cctcttctta gcacctccac ggagacgaag gacaaggtga agcgttgatt 420 ccttctggat gttgtaatcg g 441 828 125 DNA Arabidopsis thaliana 828 caccattctc tcatgggttc cgtgaagaga aaatcagtgg aggaatcttc tgattctgct 60 ccgccgcaaa aggttcagag agaagacgat tccacccaaa tcatcaacga agagctagtt 120 ggttg 125 829 472 DNA Arabidopsis thaliana misc_feature (1)...(472) n = A,T,C or G 829 acgtcgcatg cacgcgtacg taagcttgga tcctctagag cggccgccct tttttttttt 60 tttttttttt tttttttttt ttttttataa ctngtacaat atctattttc actgtaatat 120 aactatataa gtttacaacc ccgtacaaga cattttacac tcgaggatct ccaatgttac 180 tattataaac acacaagatt acacaatcac actgtgacag aagacataag agtcattgga 240 gccaaaaatc tctatttttt actgattcaa ataatatctg aggtcttcgg cgttgggtng 300 gtntctgagt ttagccattg ctctccgttc gatcttccga atccattctt tgctaacttt 360 aagaagcttc ccaatctctt ccagggactt gggcctgtag tcttgaagac cataacgtag 420 gaccatcact tgcttctctc ttggctctaa cccttctaga agatcatgta tg 472 830 159 DNA Arabidopsis thaliana 830 aaagttatta atgtattctc acaagactct gcttccctcc atttatcgat tatcaacaac 60 ctaaggaaga aaatagagac aagagaagaa gatggtgagt atcgttgtac acaaaccaag 120 cttctcttat ccatctgtat cgtcttcttc aatgaaaaa 159 831 143 DNA Arabidopsis thaliana 831 ctctttactc ttacacccaa aagagaccac accaaaccaa aacaaagtca tcatccattt 60 acagagacaa caaaaaacct tattcttcat attcacacac agttccatct tcttctcctc 120 ctcctcagtg atcaagcagc gga 143 832 455 DNA Arabidopsis thaliana misc_feature (1)...(455) n = A,T,C or G 832 ccgccctttt tttttttttt tttttttttt tttgaaaaga atctcctgta ttaacaaact 60 tttagtttaa cttataagag aagagaagnn naaaactaaa cgaaaaaaca aaaactcttc 120 ttttgcggga atcacacaat cttctatgac ccgggcttgg atatctcaag gtataccatt 180 tgagtatacc cattgaacac tgacttatcc agacgaccta aaccgattcg ttggaacaac 240 cggtgcttgn catctgctac gattggtgga gtcgctcgag cagggtcata ccgcgactga 300 tgggttaatg aaggtcctgc gaccggaggt agctcccaat agacgtcaag aattgattca 360 acgtagcgac tgttttgaaa atgctgattg tatganntcg gcgtgttagt gtggttgaaa 420 tcatctctca tttctccttt aactccccac catgt 455 833 463 DNA Arabidopsis thaliana 833 tttttttttt tttttttagc aagtaaacta tcctcttgac aaatttaaag aaaaataatc 60 ctcaaaagta aagaacagca gaatccaaag tcagagagag ggagagagag atagagagag 120 atgggaatgt tttacagcat aaatgttttc atatgatgat aagactccat tgttaggctt 180 agcaattcac ctgcaagatg gcattaatag ggtccgccgt aaaacttacg ggacataaag 240 aagttgaaat cgctgtggga gaagccgcgt tttctcagcc acgagtcagc agattcttca 300 ttcatctctc tgttctgata atctgatgtc ccaggcatca tccacaggtt accaaaggcc 360 ttgtaagtca ttgctccaaa tggaggaagt agaacttctg gtgtacttga ctctccttgt 420 tcattcccct tatcatcctt accaattgtt tctggaaagt ttg 463 834 170 DNA Arabidopsis thaliana 834 gccctttttt tttttttttt ttaagaaaaa acactcacta agtctataat gggctcaata 60 ggattaatga tgattagaaa ttgataataa tgaaggtgca ggataacata tacattaaca 120 ttccatttta aattgtatta aaaatagaaa atcaaacagc aaaccatcta 170 835 424 DNA Arabidopsis thaliana 835 tctagagcgg ccgccctttt tttttttttt ttgagaaata aaaatgaatt agaggatatg 60 aaataatgat ataacttatg ttggtttatg agacaagaag tagctacaga atttatatat 120 agctcgactc cttgtaaact actcaactcg agataccgag ttctctccta agtcaactcc 180 attattgctg agtcgggtca aaaccaacac aacacttctc tcagtaagat cttttaccat 240 cgtttgatcc aaacccacca aagctgctcc ttccacttga ctgagaagaa cggtctgaac 300 caaatcctcc tgaagaaccg cctgaaccaa agcttccgaa accagatgag cggtctgaac 360 caccagagta acggctgctt gatccccctg aacctccata actaccacca ccaccacctg 420 aacg 424 836 116 DNA Arabidopsis thaliana 836 ttttctcaga cttctctctt tctcttaaac catgcctgag gcaccaaaga aagaatcttt 60 agaggttttc gatctgacgc ttgaccaaaa aaacaagcaa aagcttcagt tgatcg 116 837 223 DNA Arabidopsis thaliana 837 ttttttttta agtataaacc atatgcaaac tttatataaa agatagaatg aaattacaaa 60 ataaaggatc aaatgcaatc aacgaaagcc acaataacaa cttaaaagag aaagataatg 120 atcacaaaac acagcgaatg tcccactccc acatcattat tcattcttta accattttgc 180 ttaatcatca gactcttttt ctttcttcac ttcctcttca gtg 223 838 534 DNA Arabidopsis thaliana 838 tttttttttt ttttttagct aaaacgagcg tctcggtttg ttataatatc aaaccacatt 60 tttcatgtgt tttaacaaac attttcaaca atgttcaaca acactttact ccacgattcg 120 taaatgaaat aagcaacaga tttaaatctt gcagaagtgg tagctggatt ttggtaccta 180 gccgaccact cttcctctga agagcaaaat gttccatcct gggacaattc gcttcaatca 240 gaatcagagt catgccttct ttttttctcc ttcttctctt tcttgtgctt ctttctatca 300 tctgaatcac gagcgcttcg cttctcatgc ctttcgcgtt tttcacgcct atcatgtctt 360 tcttccttct ctctctttgc aggtttcctt tcctcacgcc tatccttctt ttggtccctc 420 tcaacatcat ccggtccatc ttcaacagtt ttgacccctg atgtatctgc tggtaagcgt 480 gctgaatctg catcttcttt ctgagaggat gcaagggtgc tcggatcttc ccaa 534 839 343 DNA Arabidopsis thaliana 839 cgggcccccc ctcgaggtcg acggtatcga taagcttgat atcgaattcg cggccgccga 60 agaactcact gagtcacagc aacaagaaga cccaagtcaa caattaccca atgcagatga 120 agaaaagggc tcagactccg actcaaactc agactcagac gcatcatccc aatcctccgg 180 cgacgatttc tacatctccg agtcagaaaa tgaagcagaa ggagacaaca caatcttcaa 240 ctacgtaaga ccaagtgaca tacctcctga cccaaacgca aacccagaaa ccaacattcg 300 ccgattcaat cgagtcctcg atggcaaacg agtgaagcgt atg 343 840 273 DNA Arabidopsis thaliana 840 tattgaacat agaacgcaaa tcaaaattta cataaaccaa tatatgaaat taaaattgtc 60 ttcttcgttt tgcactttgg agcgtttaac agttgtagaa tccattagtc tcccataatt 120 aatatgttta aggataaatg gttaggcaat ttcgggagtt tcccaaaggt ttttctccga 180 tatgactaca tcgatgcaaa atccgaaatg cttcctctaa atacttgaaa cttggttcga 240 tccttaaacc ctccaaatct ttgtttaacc gtc 273 841 344 DNA Arabidopsis thaliana 841 atgaaacata aagattacac acattcatta aatatcagaa tctagatagc tttttggggt 60 ggtttgttac atgggaaaaa gatacaggaa gtgttcatag caggccggtg atgtcgatgt 120 atgacgataa agaggttgtg atacgttcca acacatccca catcttattc acgcctttcc 180 aggacaccag aggggagcgt ttcaatttga cactacgaat gaagttgccg gttgcatatt 240 tggtacatgc gccaggtact ttattacctt tgtaagcctt gcagatgtag cttatgaagt 300 tttcatagtc ctcataaagt ggctgaccat ccacgactac ccag 344 842 486 DNA Arabidopsis thaliana misc_feature (1)...(486) n = A,T,C or G 842 cgtcgcatgc acgcgtacgt aagcttggat cctctagagc ggccgccctt tttttttttt 60 tttttaaaca ggaactagta cccttcttta agcgtttcat tgtcaataaa cgagattact 120 tagaaaccaa accgtaagag gagcatattg agtttatagg atttcactta gtctttagag 180 atgatatcat tcagaagttt ggcctcacgt taagacgagt tgctagtttc tgtcccagag 240 atttgtctgc ctgnnnccag taagagatcc aaatgctgcg gatttcgtgc gtgacacgag 300 gctccgaaag ngcttcaaca aaacgcttca cgaatcgttc ttgcctgtct gaatcccagg 360 accggtatct ctcccctggt tgcttgnagt tgttctcctt cccgatgaag cacttctcac 420 gatttccaga gcagacaata ggagttgtag ggtatttttc ggcatggcga actggatcca 480 accttg 486 843 397 DNA Arabidopsis thaliana 843 tttttttttg gaggtaaact ctattttgga tcaacaaata tgaacaagag tagtagtttg 60 ttggggacag gacataactg aaacaaagtt ttcagacaca aatgtaagaa aaaatgaaat 120 ctttgaagaa gagactcagt aaacttcagc agcaaagttg gtagtgggaa gtctctgtcg 180 cttctcaatg taagccatag gaaaccaacc agctttgcct ttgcattctc cttcagccca 240 accggtttgg ctcacctttc ggacaacgat gtaatctcct ttgtccaagt ctaactcttt 300 ctctgaagca gcggaaaatg gatgaatcac ttcagcaaga aagtatgacg ttttctctga 360 gccgttctct gttggaatcg caggaggagc agattct 397 844 449 DNA Arabidopsis thaliana 844 tttttttagt tgaagcaggg cctattaatg ccaagacttt tctattcagt cgaatacatt 60 ttcatgttct taaagaatac aatcttgaaa cagagtaacc cattgatcta caactgaatg 120 aagctgttct ctgttcatta tactttttct tgtgaggtat acggtgactt actgagctac 180 gcagctttca ctttctcagc gtatcggctt gtatcttcgg agtacagtac accatcccgc 240 gatagaaggc ggaaaagaga tagagaaaac cgagcccatt ggaatcccac gagagcatac 300 cagcagcctc tcaaaccaaa tcctccattg ctcagaagca taagtagaag cccagcgacc 360 gctaagcatc cagtcattga caagctgata tatctaagat ctcttccagc cttcatttca 420 tatacaacag tcttagttct tctagatta 449 845 465 DNA Arabidopsis thaliana misc_feature (1)...(465) n = A,T,C or G 845 ggccccccct cgaggtcgac ggtatcgata agcttgatat cgaattcgcg gccgctcctg 60 ctctctcgct ttccctctca aatctcgatc tctctctctc cctcgtcctc cttcttcctc 120 tctcaatttg acgaaacctc tccgatctct cgattctcgc ttctccttac tcaaatctcc 180 acttcccgtc tctttacgcc ggagatcatc aactctcgtt aaagcctctt ccaccgtcgc 240 ttcagcttcc tcttctccaa ctcctccttt ggttccagct ccggttccat ggcaaggagc 300 tgccattaag cctcttctcg cttcgatcgc tactggtttg attctatggt tcgttccagt 360 ccccgaannn gtcactcgca acgcgtggca attactcgcg atcttcctcg ccaccatcgt 420 cgggatcatc actcagccgc ttcctctcgg tgctgttgct ctaat 465 846 419 DNA Arabidopsis thaliana 846 tttttttttt ttctattctt taatattcat tcacacatta caacagagaa cataacaata 60 tacgaatctt agaatataac atatcagtgt ttgcttaaga gacaacataa aacctaaaca 120 tcctgatagg ataactaaac actggacaat actaaacaaa cacaaaaaga caaattccaa 180 ctcttgatgc ttaaacgttt gcttgctgtg gaagttgaca tttttagtag gagggattct 240 ggtacgcatc tctagcacga gagtagcaaa cgtagtagaa ctgagagaca atggcggtga 300 agagtgtgaa tgcagcacca gctgcaaaaa ctcctttcct tataacttca cagcttggtg 360 gatcttcaac tttccacatc tttctatact gtgtgtggta cgcatttctg attgatgcc 419 847 387 DNA Arabidopsis thaliana 847 tttttttttt aaagttaaaa tatactcata tatattggaa tactgatatg tccattaata 60 taaggaccgt aagaatgaaa caattcatcg gaaaaataag catttcaatt ttttctctac 120 ctatatgctt aatccggcca agaacgaaac tccggtcgat ggcaaccacg aggaaccgta 180 tataaattct gccacagtga accggtttgc ctcggccgtc gaattgatga cccgataacc 240 cggccagctc acacgttgcc cgagacccga cccaggtcca ctgttcaaat actctccgta 300 atacaaagta tctaaagcaa atgttgtgtt ccactcgagc caacctctcg tgtgtacatg 360 accaccgata tacgacatca tatacac 387 848 385 DNA Arabidopsis thaliana misc_feature (1)...(385) n = A,T,C or G 848 ctctagagcg gccgcccttt tttttttttt tttttttttt tttttttttt tttttttttt 60 taaccaataa ttatcagtgg cattattttt tgaaagtcaa aattgtaaca ttttgttcaa 120 actgtatgaa tattataaaa taaaagaaaa ctcaatacac cgatgctttc ctcgcccggc 180 aaaaactctt aaaactatta agaaaactcc aaaaaaaaag tttcgttctt ttttcaaagc 240 atcatttgca gattgcagta tccgtaatgg ttttacctga annnnaactg gtaaaaagac 300 agaaacttat gatctcttct gtcttggatc tttatcatat gtcgagaaga agcctctgag 360 gatcttccac aacatcctta atacg 385 849 437 DNA Arabidopsis thaliana misc_feature (1)...(437) n = A,T,C or G 849 tttttttttt ttttgcaaaa ttcaaatatc ttgaaattct tagttatata gaggcttaga 60 gagagaagaa atatcactac ttttatccct cgacgctgat caacaatgac ataaacaaca 120 gaacaaacca gtcaggaaaa ttccaagttc attcacataa ccgaaagagc cacctaaaan 180 ancgcccaaa acacattact tcgataccat ttcacaacac ccgttttgct agccacggac 240 aaccttgtgt aaacccctaa tctttcttct tgttcttcaa cggcccaagt gggatcttgc 300 tcaacacctt ctcatccaac actgcatact gcttcttgag ctcgatcatt gctttctcac 360 ctaatgggtc gactttgtct tcatacttgt cgtaggcaag aggaaccgtg aagagcaaca 420 caagagctat gtatgcc 437 850 539 DNA Arabidopsis thaliana 850 ttttgttata aaaaatttct ttcatttgaa ataataaaag taacaacaaa aggattacaa 60 attttttcta attggtataa agattacatc gttaaaaatg tcgaagcatt ttaatcaaac 120 atcagcaaaa acatggaagt tcttggagtc aacagagatg agtctaacag cagcaatagc 180 agcagcaaga gacattaatc caaagaagca aacattgagc caatgccata gcttttgcac 240 aagactaagc tcatcattca tagcaacaag atacatgtga ttcgctaata tgaatgtgag 300 agggaacgtg cttatcgctc cggtaaggct catgaaatct ccgggaaacg gtaaaagcgc 360 agagagaaga gtgctcaccg caatgtagct tcctcttgct actgttctaa acaacagatt 420 cttcattgcc aatggacttc ctttgactcc atactttgtg tccatatact cataagtcgg 480 acttgcaaaa atatgtaaag agataacaga ttggagaaaa gctgaaatgt tagcgagtg 539 851 500 DNA Arabidopsis thaliana misc_feature (1)...(500) n = A,T,C or G 851 tatcgaattc gcggccgcct ttcttcccgg acgatccctt aagacagttc agaggacaac 60 caaaccgtac caagctcata cgcgccgctc aatacatttt tccaatcctc caatggtgtc 120 ctgagtacag cttcagccta ctcaaatccg acgtcgtttc aggtcttacc atcgctagtt 180 tagctattcc tcaggggatt agttacgcgn nnnnngcaaa tttgccacca atcgttggtc 240 tatactcgag cttcgtgcca ccgttggttt atgcggtctt gggaagctca agagatctag 300 cagtgggacc agtctccata gcgtcgttaa tcttaggatc catgctaagg caacaagtat 360 ctcccgtaga cgatcctgtt ctctttctac agctagcctt ctcttctacc ttctttgctg 420 gtctctttca agcctctctt ggaatcctca ggctgggatt tataatagac tttctatcaa 480 aagcgacgct aatagggttt 500 852 433 DNA Arabidopsis thaliana misc_feature (1)...(433) n = A,T,C or G 852 cctctagagc ggccgccctt ttttttttgt aaaatactca ctttatcatc aaatctttat 60 aattgtacat actaatggat ttaaaaataa gaggagaaat aatttacgac gaaattggat 120 ttggaactaa tcaagttttc gaggtccatc catgtttgcg tcgctccaac gtattcacca 180 ttttnaattt gtgttttaat cttctctgct aagctattag agctatccaa gccattgtca 240 tcaagcctag agacatgctt gagaagaggt ccccatgaaa acacaaaatc ttcaggggat 300 atccaactat ctcccaaaat cactcctcca agatgaagct tcaatttgcc agattgaact 360 gcgtcaataa ccgataaacc gagcttaacc gcgattttgc caccataaga ttcagcaaca 420 atgaagagag ggc 433 853 256 DNA Arabidopsis thaliana misc_feature (1)...(256) n = A,T,C or G 853 tttttttttt tttttttttt ttttttgaaa gaaagaataa cacattgatt gcataaaact 60 tatacttgtc tttgaattta acatattcaa aaatatagcc aagaaaaatt aaacaatcga 120 actactgcat cgagtcttac aacgctatga tctctttgta tgcattgttg cgttctatat 180 accatatacc ttaaantcct cttcttctat ctgtctccat tactgaatcc agaatgtgca 240 tatgtatagt taattc 256 854 184 DNA Arabidopsis thaliana 854 ggccgctaca aacacacata cacaaaacac agatatataa aaatgtcttg ttataataaa 60 gcactattga tcggcaacaa agtcgtcgtt atacttgtat tcctcttatg tttggttcac 120 tcgtcagagt cacttcgacc actgtttgca tgtgatccag caaacgggtt aacccggacg 180 ctcc 184 855 145 DNA Arabidopsis thaliana 855 gtacattatt tattaccacc aataagattg tatcttaact atcctatgta tacaatttgg 60 agagatcatt tggccaacca gacaaaagta aaacacaacc atcaattcac atgtctagaa 120 caataattct ttctaattct ggata 145 856 471 DNA Arabidopsis thaliana misc_feature (1)...(471) n = A,T,C or G 856 aaagatcttc tcttcttctt gtctatattg agtgtaaaca acgttggctc tatctcgtgt 60 ttcttacaag tcaggaaaca tacaggaaga aagaaacagt acaatgagtc aggttgcaat 120 ctctctgatc agccagttta agctcgggaa ggcaaaataa aggacgagaa acgacgggac 180 agccaaagca aacgtaacan ngaaataaac cccgagaact gcagcactca cagggattgc 240 atataaagcc atcaacagga atatgactac cagaggaaac ttagccaaca aatgagcaac 300 aagagccatt gacttacgta ccgagtcatg gagcctccca gttctgaaga atcctctggt 360 cacaccattc caccagctgn nnttgtccag caacccttca tcacccaagg cggtattact 420 cattccatca cacctatttc tcaagtctct ctgccctgaa gcaacccttt t 471 857 418 DNA Arabidopsis thaliana misc_feature (1)...(418) n = A,T,C or G 857 tttttttttt taaagaatat atgtctccat tgatcagata tgattaacaa aataggacaa 60 caaattgaat gaaggaaaaa angaaccaag tttcataact atagatatgg tgttatgtac 120 aaagcgctaa cacagtgaac tagccagtgt ggtatggtga tattcttaag aaattttgca 180 gactaaacaa atcttcccaa ccccattcgc tatacactac cttcgaatgc catttcctac 240 gtctgtgaac ctgtcgacta atcattcttt tgttgtttgc accgaataac agtgtttgac 300 aatgcaggag ttgcttcata gttcctgtaa annngtcaag ctcttaggct tattagcagc 360 ttctgacttc attcaagtgg attcaacctt ggattataca gtgtagtctc caactgat 418 858 296 DNA Arabidopsis thaliana misc_feature (1)...(296) n = A,T,C or G 858 tttttcgata atatattaca tcttctggga aacctcatta ctgggttttt acagacacag 60 cttgagcata tatttctcta tcttgcaact tgatggtaac ttatagacaa aatagctttt 120 gataagaaga agagaagatt agtggaactt tacaacgata catgagatgt catctttgct 180 cttcctagat atagcttcct ctatcaagtg ctttgcagct gcatgaggat cttnnntact 240 cttgatagca tcaaccgctt cttggtttga taatactttc caaataccat cgcttg 296 859 433 DNA Arabidopsis thaliana 859 tttttttttt tttttttttt taaaaaggaa agagagtcgt attaatataa aactataata 60 acttattaag atagtcaaca ttaaaattaa attaaagatt tcatctgaaa ctattgcaac 120 tactggtctc ttcatcggaa gaagagaaga tctccgtcgt gactccactt gaagcatgat 180 cggaagaagg agagctcggc aaaaggttca aatctgttgt tctttctttt ctcatgaaat 240 caaagaagat tggttttgtt ttatcatctg tttggtctgt tgtaattatc tcaatttggt 300 cactcgaatt gttattatta ttatgtctaa gattacggct atctccgtcg tcgtcgtcgt 360 tcttgttacc ggctcttttc ttcaagaaga tacgacagag tacccagttc tgagtgggac 420 ccatagaact cgg 433 860 110 DNA Arabidopsis thaliana 860 tgatgcgaca gattcagata ttgtgcttga gatggagtgt gatggagatt gctgtctata 60 ggtttgggaa gctgataagt ctggaacttc ctgtgttgtt tttccttgcg 110 861 332 DNA Arabidopsis thaliana 861 actcgaaatt aaaaatccaa ccccacattt ctccctcttt ctcacattcg ccccaacatt 60 tttcttcctc ctctatcaaa ctctcaacga ccgaccaagc gaggatcaac ctcaacccta 120 gcaacaccag ccggagcctc cttagccacc tcaacctctc ctttcacaag ctcaaccgcc 180 acgtcatcac cactcttctt cacctgttcc tcgtcgtaat taggatctcc ttcatccatc 240 gccggtggat ccggctgcat ctcgtaatcc tccatccgat caggtccttc ccacgtgtac 300 ttcccgccgt gacctgactt cgatggtggt cg 332 862 179 DNA Arabidopsis thaliana 862 tttttttttt ttttttaacg caaggaaaat attttataag aaagaaacag aggttacgta 60 tgcggtaagc agtttagatt acaagaaaaa taaaattata ggtatattaa gaattgaaac 120 tcttttctct agatgattat tgtaacaaaa attgatagta aggaagatgt tgacgataa 179 863 506 DNA Arabidopsis thaliana misc_feature (1)...(506) n = A,T,C or G 863 ttcgcggccg cagacaaagt ctcttctccc accgccgatc tcatcccgca gcttgctgct 60 acactcgtcg ctgctcttgg cgctcaatgc taccgcctca cactaccgcc gtctcctccg 120 cccagaatcc tgacgccgca agtgccacct tcgtctgcta ccatggcttc ctccttcaat 180 cctacccgaa tccttgacca tcgcgcgann nctcaccgga atcgtcgtgg ggcttttccg 240 gctagcaaac gtcgccgtct ggtcgatgag cccatcgatt acccggatct ctccaacccg 300 gcttaccagg ttctctccac tccgcttttc gcctctggaa ttgggtcgat tcgcgagctt 360 ctgtcgtcct ctcctccgcc gacgacgtct tctcagcctc cgtctgtctc gattccacca 420 ccgtccgctc caccgctcgt tctcagcgat tctanggatg ccgaacccgc tggtctcacc 480 aatccgtctg ctcctccgtc cccgtt 506 864 344 DNA Arabidopsis thaliana 864 attcgcggcc gcaaaaaaaa aaaaaaaaaa gcggccgcga attcctgcag cccgggggat 60 ccactagttc tagagcggcc gccaccgcgg tggagctcca gcttttgttc cctttagtga 120 gggttaattt cgagcttggc gtaatcatgg tcatagctgt ttcctgtgtg aaattgttat 180 ccgctcacaa ttccacacaa catacgagcc ggaagcataa agtgtaaagc ctggggtgcc 240 taatgagtga gctaactcac attaattgcg ttgcgctcac tgcccgcttt ccagtcggga 300 aacctgtcgt gccagctgca ttaatgaatc ggccaacgcg cggg 344 865 591 DNA Arabidopsis thaliana 865 tttatgggta aactttcagt tcccacaaaa ccaattgcag aagtacaaat ctagcctcct 60 gtcttattga ctcttcaaac aaaatttgta tgtttggctg aaacatgtaa gtaaatgatt 120 taagatgact tggtgacttc atgtatagca ttcgcaaggt atcccacgtt tcctgttgta 180 acaccagcca tactgatacg gccgttacgg gtcatataga tgtgatattc gcttgttaag 240 cggtcaacct gttctggtgt taacccactg tagcagaaca ttccaatctg tttggtaacg 300 tgctcccatg acaaaggcga tcctaacttc tcaaggcttt ctcgcaaagt agttctcatg 360 ccgatgatcc tatcagccat gaccttaact tcttttagcc acagactctt taactctggg 420 tcttcaagaa tggttgagac cagctgagca ccatgcaaag gtgggttgct gtacattggt 480 ctagctagct gctgcaattg acttttcaca gccacggctt gcttcggatc ttcacaaagc 540 acactgagac atcccaccct ctggccgtag agtcccatgt tttttgcata g 591 866 341 DNA Arabidopsis thaliana 866 caacataagt cccactccca catcattatt attcactctt atcatatttt tctcttaatc 60 agacactttt tctttcttct cttcctctcc agtggtcttg gcgtgataac ctggaagctt 120 ctctttgatc ttgtccataa atcccttctt ctcctccggg atgtcagcaa tcggtgttgc 180 tgtttcaacc agcggtgtgg tgttgacgac ttgtgaatcc tctggtttct tgctgtggcc 240 tggaagcttc tccttgatct tatccataaa ccctttcttc tcttcttcct ctggtttgtg 300 atcctctacc gaatgtggtg ctggcatggt ggtgacgact g 341 867 117 DNA Arabidopsis thaliana 867 agaaactcaa aacctgaaac aaacaggtat aacaaagagc tcgaattaat cacttgagtt 60 catcctccac gcatatgggc accgagttca ccaaactgat catccgcttc tacggtg 117 868 455 DNA Arabidopsis thaliana misc_feature (1)...(455) n = A,T,C or G 868 ttttctaatg ctcgaaatat ctttagtgaa cagagaaaaa cacagatgat ctattctgat 60 atgagaagag aagtctccaa actctactaa gtaccaaaat caaaacttgt actgacagac 120 agacacagaa acagaaacac agtcatggaa tcctctactg gaaacttgtt attaccagtg 180 acctcttcct tgtcctcttc ctcgaccacc tccacgtctt ccccaacctc ggtttccgcc 240 tctaccagct ccataggatg atatcccctc aaaggccttg nncacaagct ggttttgcat 300 agtacccgac ccacgtccct tctttgctgc aacattgtta ccacttccat tgttgctatt 360 agcaggccgc tttcctccaa ttgttgttgt tgttgaggct aacggctttg tggcttcttt 420 ccaagacagg ttgagattag tgtctccgat aaaag 455 869 123 DNA Arabidopsis thaliana 869 taacaactcc tccatcttgg tctccgatgg agtccaagac agatccagca acgactttct 60 cagtcttaat ccgccaaatc tttccgagag tgcttgtgtt catgtctacg ggtttcttcc 120 atg 123 870 551 DNA Arabidopsis thaliana misc_feature (1)...(551) n = A,T,C or G 870 ttttttttcg aataaaaaaa ttggaatata agaagaagaa acaaattgtc tggtgacaat 60 aaatattcca taataagaaa acgaaaaaaa aaacagacct aaagaagtaa agatttttga 120 atcaatctgt aatgtcgaaa atcatctcaa ttctaagaaa tctccaaatt ttaagtgttc 180 ttctgttggt gtttgtagtg gagagtatca atgtgcggct tcactttttt tcctatttct 240 acgactttta acctgtttga attctttctc gccatcttct gcggnnnatt tgtcttgctg 300 tcatctgcag agccattctc agtcttgctg ctatctgcag agccattctg cgtcttgttg 360 cttccacctt tggttttacc agaaggtttg cttccatcat aatcaacttc tttttccttt 420 acacgaagct tacggtctgc aagcatgaag ggcgtgttct tggcagcctg aagcacgctc 480 tggactgagg caacagtttc aaaggagata aacccgaagc aaactggatt agcattaccc 540 ctggagcttc g 551 871 252 DNA Arabidopsis thaliana 871 atattcttca ttaatttagg tcataaagat agatagaggg tgaatcaact cagcagtaga 60 acatgacacg cttcacattc tctttcagag ctgggagtgg cctcactgca gcattgacat 120 taggcccgcg tgtgcttcta ccagccattc cacctccacg tgccatgctc ccactagcca 180 ttgagccact gtctgatgtc tctggctcca tgtagaatcg agccctaaaa gctgctagat 240 gtgcataata tg 252 872 204 DNA Arabidopsis thaliana 872 cttttgcgcc gcttttctct ctttttttgt gaactgaata taaacctagc aattcgattt 60 ataccagtct ggtcgagtca gttactagcc acattgtcgt tcagtaatca gtataagcct 120 ctcatcagtt gtacttcagt ctcctttcac gttctctcga actgtgacat ttgagcagtc 180 ttcacctgca acaccaggtg atcc 204 873 520 DNA Arabidopsis thaliana 873 tttttttgac tctgaatttt caatagtaat aatagtatct gaaaattaca tctttagatt 60 ttcaccttat aatagcttta tcttcctcag tgacaacaag ctctccatca acaaactcac 120 aatacaagaa aggcaaacca agctgcttct ccatcttctt cactataaac acttgtgatt 180 cctcgcacac tgttaccacc gtccctttcc ttcccagcct ccctgttctc ccagctcgat 240 gagcatagtg aaccgcatca gttggaagct caagattcac caccagatca cattccgcaa 300 catcaagacc ccgagcagag agctcgtttg tcacaagtac cttgatttcc ccgttcttga 360 acttctttag aactgttgat ctccctagct tcccgagatc tccgtgcatc tcagctgaat 420 tcataccacg agcttcgagt ttgtagacca catctttgag ctgccttgag tggttcatga 480 aagctataac cgattgggca tcgagggcgt gaacgcatct 520 874 424 DNA Arabidopsis thaliana 874 ttccaactct caccaaagcc ctaccgaatc accaaccatc accgacgtct tctccgcctc 60 cgcttacggc gatctccacc aacttaaaca tttcgtcgaa cataatggct cttccgtctc 120 acttcccgac gataatggct tctacgctct tcaatgggcg gcactcaaca attccctcca 180 cgttgctcaa tatatcatcc agcatggtgg tgatgttaat tcagctgata atatacaaca 240 gacaccattg cattgggcag ctgttaaagg ctccattgat gttgctgacc ttttacttca 300 acatggagct cgtattgaag ctgttgatgt caatggcttc agggagttat aagttttgca 360 tcaggcttgt tgctgctgtg atcataggct tcagattctt ctgactataa cgcactagat 420 attg 424 875 103 DNA Arabidopsis thaliana 875 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttt tttttttttt 60 tttttttttt tttttttttt tttttttttt taacttgcac gtg 103 876 107 DNA Arabidopsis thaliana 876 atcgataagc ttgatatcga attcgcggcc gccgaagatc tttgtcgccg agagatatcc 60 actctgattt gagttctgaa ctattctctg gaggaggttg aggtctg 107 877 454 DNA Arabidopsis thaliana 877 tatcgataag cttgatatcg aattcgcggc cgcataaact tcaaattctc ttccaaatct 60 tgaaacgaat ttctcccaaa aatctctgtt tcttcacaaa aaaacaaaaa aacaatgttg 120 tgtgcatcat cttcgcttgc tcttttgggt cctccttctt cagctatggt gactatggct 180 tcttcaccag tgtccagatt tgttggattt ggtcatcata ctattctcag gtatgataat 240 gatcaacgtc ttcgtcgtgg ttgttcttgg actggaattg aaaagaagat cccttttcct 300 cggaagaaga ctgcctctgc ttctgcttac cctctctttc gcagtcagca tactaaagac 360 tcatcaagac ccaaaaatta caaagaggtt actaagtcag ccaggcaaat gtttgctcga 420 gagatctcta tccaatcgaa agacagtgaa attt 454 878 360 DNA Arabidopsis thaliana 878 agttacttgc tgttgcgcgt cacatagcca aaacacttgg ccacaatgaa tccatggccg 60 atgatatctt acagatcttc tccaacttcg acggcagatt ttctcgcgag aagctcgccg 120 aaggtcaagc tggagaagat ggatccggag tcgccacact cgagcgagct ctaaattcaa 180 tagacggtca gatctctcgc tttgttgctg cggaccaacc aatttgggct gatcctgcag 240 attcagctgc tttcctcgac acaatcgatg agctcgttgc aatcattaga gagtggagtc 300 ccatggcttc agagaaacct atcggcatct gtctaacacg cgccgacgat atgatgcagc 360 879 366 DNA Arabidopsis thaliana misc_feature (1)...(366) n = A,T,C or G 879 ggtatcgata agcttgatat cgaattcgcg gccgctttga aagaatcaat ttccctctcn 60 nntcagaaat ctaaaaatgg gaacaacgat cttggttctc tccaagatcc taactttctt 120 actaacaaca atgctgattg gatccagtgt gatccagtgt agtagtgtaa cctacgataa 180 gaaagctatc gtcatcaatg gccaccgtag aatcctcctc tctggttcta ttcactaccc 240 aagaagcact cctgagatgt gggaagatct tataaagaaa gctaaagacg gtggcttgga 300 tgttattgat acttatgttt tctggaatgg tcatgaacct tctcctggaa cttacaattt 360 cgaagg 366 880 305 DNA Arabidopsis thaliana 880 gatgatcagg ctctctaagc gctccgtctc taccctccta cgctccggta accaaagctt 60 ccgtatcgcc gccgcagctt ccacctcccg ttcttcccca tctgccacgg atgtcaagag 120 aagtgacact gaatcgagat ggtactcatc tttaaccaat ggacaatcta agaatagtgg 180 gtcatttgct caattgaaca tgaaaaccaa ttggtttatg ggataccgga acgaatccag 240 tgcagcagca tcagattctt cctcacaagc tcctccaccg gctgagaaat tcgagtatca 300 agctg 305 881 361 DNA Arabidopsis thaliana 881 tttttttttt tgtaaatatt ttcgattcgg ttttctaatg aatttagtat gctgttactt 60 cagaaacaaa ggaattgaat cgtattgtgt attggtaata gaatcaacaa aactgttcct 120 tgaaattgaa atttgatatt tacatttgat aaacttccag gtcttcaaca aagacttact 180 tcaggcgagg cttcttagtc gccatcggac tcatcacttc gtcgtccggc gaaaatccct 240 gcaccggtat aatattaagg tcaaatccac ggtggctact actgctgacg tggctagtag 300 accccacacc ttccgagttc gaaacgccac catcgtagtg gcaccgcttg tggccgccga 360 g 361 882 473 DNA Arabidopsis thaliana misc_feature (1)...(473) n = A,T,C or G 882 tttttttttt tttttttttt ttcattcaaa gacgttaatt agatcactaa catatcgaaa 60 aacataacac gacttattct taatcacccc ttaatacaat aataatgcaa aaacacacag 120 tttctttagt taatcacatg acaactcttc ctgatctcac cattaaaacc ngtaagaggc 180 tgaatgtttc ccatgttaac catcgacttt gcgaattgtt ggaagaaaag tctctcgtct 240 tcggcataag ctttcactaa tgcaccagtc ttgcctacat tgccagtgag aagcacttca 300 tctgatgtca ataagccttt gccccataga aggagcttga agtatgtgtt gtcgaatctt 360 gcaggagagg ctaagtctag aggtgaaata ttgttgtcac cgcctgttgg tggacaaatt 420 gacctgagac catagtagta agacctctct agcgtctcgt ctggttggtt att 473 883 407 DNA Arabidopsis thaliana 883 tatcgataag cttgatatcg aattcgcggc cgcagaagat gaagcactac agtcacggaa 60 ttgatggttt acgaagcggt ctttcacctt ccgctaaacc tttcgcaatc ggttcttctt 120 cttctcctgc cttctctctc aaatctgaac acgaagattc tatttggggt gattatactt 180 tagacctttc ctttttatcc tctgatgatc agagaagtgg tctcgatgat gatgattcgt 240 tatctaactt gtctcgcgat gttgagacta ataaagaagg attggtttta gaggagaaga 300 tagctagttc tggaaaggtt ttggtaaacc ctaatccaag tttctcgaaa ttgcctgagg 360 tattgatgaa gtcctcagat gttgttggtg atgcgaagtt gggtttg 407 884 337 DNA Arabidopsis thaliana misc_feature (1)...(337) n = A,T,C or G 884 gtatcgataa gcttgatatc gaattcgcgg ccgccaacaa tatgacaaat caaaaacaat 60 aagccaatat tcaatctttc actacccata cttgannnna attacatatt tcgaccccct 120 cttttttttc ctccactcct ccaacccgaa ctatgtacac tttaatttca attacaccta 180 ggattaaacc ccggcccacc atagtaaaaa taagttcccc attcattact atacgaactc 240 ttaatgtcgt aacattcggt gttctcggct agtatcttga catcatgcac cggtacgaga 300 ctgttgtccg aatccacaac ttccaaattc cgaaaat 337 885 384 DNA Arabidopsis thaliana 885 ggtatcgata agcttgatat cgaattcgcg gccgcaaaaa atggagagca aagggagttg 60 gacagtggct gatgccgtag actacaaagg acgacctgcc gacaaatcca aaaccggtgg 120 ttggatcact gccgctctca ttcttgggat agaagttgtg gagaggctat caacaatggg 180 aatagcagtg aatttggtaa catatttgat ggagacaatg catctcccaa gttcaacctc 240 tgccaacatt gtcactgatt tcatgggcac ttccttcctc ctatgcttgc tcggtggttt 300 tctcgctgac tccttcctcg gccgtttcaa aaccatcggc attttctcaa ccattcaagc 360 tctgggaact ggtgctctag cggt 384 886 437 DNA Arabidopsis thaliana 886 ttgatatcga attcgcggcc gccttttgtt tccgatatag atcgaggaac ttcgatttat 60 cagacattaa caccaatttt taagatatcg tgaaggagag atttgattga tggcttggag 120 gcgcatcatc accaaggttt cgagtcatga aagggaattg agcagtttaa gaagcttact 180 tgttagagct tactcctctt ttcctagagt gggagttact ggagctgtgg gtggtggtgg 240 agcttcttta ccgcgaacga ggtttcaatc gagttatgtt ggtagctttg ctcgcagagt 300 ccgtgataga gaagaagtta atgaggttgc acatctgaga gaacttattc gaagaaatga 360 tcctgaggct gttatcagaa tgtttgaaag ccaaccttct ttgcatgcga atgcctctgc 420 gttatcggaa tacatta 437 887 455 DNA Arabidopsis thaliana misc_feature (1)...(455) n = A,T,C or G 887 gaaacacttg tacgacaata gtttcctgac taagttagta aacagcatcg tttcatttga 60 actatgaagt aacaacagaa gaaactaaag cagctaagag ttgtggaatt gcatctcctg 120 ttgttgaatc ctgtcaatag catcctctgc tccagcttca agatcagaca tttcgtcttc 180 ttcatcttct tgtttgtagt atatgatgtt agaagagtga ccagtggtct tggaacggtg 240 aagagtggtt gcagaggaag aggaagagag gctgaaactc tctgaaacac caagtgtctt 300 gctcgggngc ttcctcgctt tacctttctt caatttgatg tctttgtgcc acttcttcaa 360 tgcctttgcc atttgctcat caaacactgc tttcttcatg tgtgaaccca tctgagtaac 420 gagggcgtac aatgggagag tgatgtagct gcata 455 888 463 DNA Arabidopsis thaliana 888 ggtatcgata agcttgatat cgaattcgcg gccgcgctcg atttgacgtc tgccgatttc 60 cttagctccg acgtaaacca ctgatcgtcg gtattcagct atattttgat ttctcagctc 120 caaaaattcc caacgaaatg gagaaaatgg ccaaaggatg gtttccgatg agcggcacta 180 gtagcagcgg agatcagcag cagcaaccgc tgcaaacagg aggaacgtct ctgctagctg 240 attggaattc ttacgcagca tcgagagatt ttgaagaaga caccggaact ttaggcttcg 300 atatcgaatc cgccgttaga tctgccaacg acactgtttc cggcaccttt aatgttgttt 360 cgaaaggagt tagagataac ctgcagtctg caacaagtag tatgccttca ggaaaagctt 420 tgatgtattt cggtttactt ctagcaagtg gtgtattctt cat 463 889 422 DNA Arabidopsis thaliana 889 tttttttaca taaattttta ttttctttat tagatggtaa atactaaata cagactactt 60 actaattatg gatacaaagg ctaacaacgc gacagatcct acgtggcacg ataaaccgtg 120 ttgatcctac gtggcacaac cacccagaat ctctgggttt gctctaatta caaccaattc 180 aatggttttg gaccaactcg acacatcgag tcaactcgct accagcactg atcggtttcc 240 caattccgtc caccgtaact gccgtatcca gccgttaacg gccgactccg aagaagagtc 300 ctccgatcat aaacggcgcg tttctcggga tccgaaagcg tgcaatacgc tgcgtggatc 360 ttcatgaaat cgtccgccga cgagttatcc cgactatttc tcgctacatc gggatgacag 420 at 422 890 366 DNA Arabidopsis thaliana 890 ggtatcgata agcttgatat cgaattcgcg gccgctaaac attaacaaca aaacggtgaa 60 tcgtctctaa tggcgccaaa ggcccaaagg tttggcaaat catacaggga aatgagtttg 120 tacactcgga tttcttctac ctctttctct agtcaaaggg tgaggctaaa gcaggatgta 180 gaacaagccc agcatcatcg gtgtgcttga tcttaacttt tcttatcctc tttttcatga 240 taagcggcca tatgagaagg gttcgagcca cgcgactcaa cgggtcttga agaccatcca 300 tttggtagtg accaaaccgc cagtcgcggt caacaaacgg tctccattga ggcttgtcga 360 gaccat 366 891 367 DNA Arabidopsis thaliana 891 ttgatatcga attcgcggcc gcggaggagt ttcgtcttcg agtcgtcgtt gttcttccgg 60 tactgctggt gctgcaaatg cagaagcaag aatgaagttt gctgctgttg atgctataac 120 agaattagtg tggtctccta gcaacggtct aagcttaaga tgtgcagata tcagtttcac 180 gggaaaggca aaattactct ctcctaactt ctttgatata ggactaacta acatggcgat 240 tcactcaaat agcacaagta ttgaagacca agaagatcac gtagatgtcg aattgagaaa 300 ccgagatcaa gtgaaccaag caatgattgg tggttctgtt gaggatatga aacctgaaat 360 ggttgag 367 892 433 DNA Arabidopsis thaliana 892 tatcgataag cttgatatcg aattcgcggc cgctcagtgg gctgctgagt tcgtgattga 60 atttgctgca gcgctgccga aatcaaaact gaagttaatt tgggtacatc tccaagacaa 120 ctgccagtgg atccttctac agtttatggc cagggaattc tgcaatcaaa gcctgggatg 180 gggagtgcag gattaaaccc tggagtgagt ggtcttcctt taaagggatg gccattaact 240 ggcatcgagc agatgcgacc aggtttagga ggccctcagg ttcagaaatc ttttctacaa 300 aatcaaagtc aatttcagct ctcgccgcag cagcaacaac atcagatgtt ggctcaggtt 360 caagcgcaag gaaatatgac taattcaccc atgtatggtg gtgacatgga ccctcgaaga 420 tttacaggat tac 433 893 438 DNA Arabidopsis thaliana 893 ggtatcgata agcttgatat cgaattcgcg gccgccgatc tgttacttct tctcctggcg 60 atcgctcttc ttgcgacgcc ggcgttctcc gatctggttt tatccaaagt cgaacgtcgt 120 atcgatgtga cttcacagat tgctcgtgtt actaagaccc ttaaggttgt aaattctggc 180 tctgaatcag tttctgagtt tgctttgaca ttcccaaagt ttcttggtaa caacttggct 240 tatctatcgg ttgctcctag tgagggaaag gggaaatcta aacgaacttt agtgaatctc 300 tctgtgagag aagctgatca gaaaggttta cctgattcaa ttagtgttta ctcagttgca 360 ttacccaaac cactgagtaa aggcgatact ttgacgctgg aggtagttgc tgcattcacc 420 aatgtacttc agccattt 438 894 420 DNA Arabidopsis thaliana 894 ggtatcgata agcttgatat cgaattcgcg gccgcatttc atatgattca tgttaatgtt 60 gttgatacaa tgtgaagcca aataacaata aaagtattga taccaagata catgatttca 120 ctgtaaacct ttttggatac atttgtgtta cacacttaca cttgcacata taactcgtcg 180 aacgatgaga aacaatggac ttcctctatt agatgaacaa aaacagattg agtctcttac 240 ttctataact tgtcggtccg aatgcatctc aaatccttgt caaaagtaaa gactttccct 300 ggcaacaatt cggcagccgc agagattcct ctgtacacta ttctggtgga aacaatctgt 360 tccgaccaaa gaccaaactc cacaaggttc ccttccatcc actttatact aaccgtcaca 420 895 355 DNA Arabidopsis thaliana 895 tttttttttt ttttttggaa gagaatccaa gcatgttttc tctataatga atgtttggag 60 ttacaactag aaatagagaa gaaaatcgga tgaaactagt tcaagatatt ggcaagttca 120 ccattttcat acattgaggt caaaatatca catcctccta caagttctcc tttcacaaat 180 atctgtggaa acgttggcca attgctgtag ttcttaagcg tctcccttag cccatgatta 240 tactcatcgt caagaacatc aacagtttca taatcaactc cttggctttc aagaatccca 300 acaactctct gtgagaatcc acattgagga gcactccttg atccttttat gaaag 355 896 335 DNA Arabidopsis thaliana 896 cggtatcgat aagcttgata tcgaattcgc ggccgcttaa actttacgtt tttctctgga 60 acccgattcg aagaaatcat caagaagttt cctttcactg atttctcaat ctattccttt 120 cgcgcttatg gaagattctg gagtgaatcc aatggattca ccatctaaag gcagtgactt 180 tggagtctat ggaatcatag gaggtggaat cgtggcttta cttgtgcctg tgttactctc 240 tgtggtgttg aatggaacca aaaaggggaa aaagagaggt gttcccatca aagtaggtgg 300 cgaggaaggt tacacaatgc gtcatgctcg agctc 335 897 394 DNA Arabidopsis thaliana 897 cggtatcgat aagcttgata tcgaattcgc ggccgccaac gatgctgata tgaggtctcc 60 cgtggtgact tcaaagagac aagttcaaca caatagaaaa caaaaatact acaaatccaa 120 ataaaactcg aaactgttat atctatacag ccttcattat gatgtcacaa gaactgaaag 180 cttcagtttt agagctcttt cggaatagtt acaacctctc tctctcgagg aatttggtcg 240 tgtgtcaaac gatcaaaagt attgcaggac agcgatcata tcttcacacg acattatgaa 300 aaaatattct ctgccaaaag aaaagcttct tcttcacaga cacaatgttc tccttatcag 360 ggggctccaa tgccgtaaat acaatctttt ttgc 394 898 179 DNA Arabidopsis thaliana 898 taaaaagaag cagtaaatag attccaaaat tccaaggaac aagattatta cagaacacaa 60 ctacagttta atcaatggaa actcgtaatg tgagttggct cagaacattg aacacacgat 120 ggtgaataag tttcaaaaga tttttccact tacgagttaa atcgtctcac tctaccaga 179 899 418 DNA Arabidopsis thaliana 899 cctctagagc ggccgccctt tttttttttt tttttttttt tttttttttt ttaaaccaat 60 cttcaacaag accaatattc gttattctgc attaaaggtg attaacaatg gaaatctttg 120 taaggcgtcg accatgtata tacatgtaga catattttta ccagttgttt ttttggtctt 180 gaagctgatc aacgctagtc ttgttcgtcg gtagatatct taacattgtt ttcaacaata 240 catgagacag ctcaattctc aaatcgtcta aaccagtcaa cgatcgtcct ggaaagaact 300 cgagtttcgc taagaggaat ggtctttagc gcctgagcca cagcgtctgc tggcgagtac 360 acagacccaa tttgccactt tgggtcctgt atgcaaggtg tgagatggtt tccgttca 418 900 596 DNA Arabidopsis thaliana 900 ggcccccctc gaggtcgacg gtatcgataa gcttgatatc gaattcgcgg ccgcatttga 60 tctatgcata gtaattcttt gaaatataaa gtttacatat gactatcctg tcgtgcaacc 120 tagttctctc tactaaaatc tcatttcttc caaactagta tcacaacaaa caaaataaaa 180 tatttgatgt caagaggttc agacttcaga gacataacta aactactcaa aatccaagaa 240 tcttgggagc aatgtgaagc aaaggctcca aagcactcgg agcaaacttc ctcgcaaaga 300 gataacacat ggaagtgttg cgaccattgt aactgcagtt tcttccatca aagatttttc 360 caaagaagtt ttctgtaatg tccgatcgcc caaacgtagc tgggtgggga ccgcccctcg 420 accagtccac ccatgtcaag ctccggttag ccaagactgt tggtttctca atcgtcaaca 480 ttgttgggaa gtaatgctcg tccacatagc aagcaggcct gcagaactct ttgaatttcg 540 ggtaatacaa tgtgtctttg acaatggtag ctgccaggtc ccggttaacc tcaaac 596 

What is claimed is:
 1. A nucleic acid comprising a sequence capable of hybridizing under stringent conditions to a sequence set forth in SEQ ID NO: 1 to 900, or a fragment thereof.
 2. A vector comprising the nucleic acid of claim
 1. 3. The vector of claim 2, wherein said vector comprises regulatory elements for expression, operably linked to said sequence.
 4. A polypeptide encoded by the nucleic acid of claim
 1. 5. A nucleic acid comprising: an ATG start codon; an optional intervening sequence; a coding sequence capable of hybridizing under stringent conditions as set forth in SEQ ID NO: 1 to 900; and an optional terminal sequence, wherein at least one of said optional sequences is present, and wherein: ATG is a start codon; said intervening sequence comprises one or more codons in-frame with said coding sequence, and is free of in-frame stop codons; and said terminal sequence comprises one or more codons in-frame with said coding sequence, and a terminal stop codon.
 6. The nucleic acid of claim 5, wherein said nucleic acid is expressed in Arabidopsis thaliana.
 7. The nucleic acid of claim 5, wherein said nucleic acid encodes a plant protein.
 8. The nucleic acid of claim 7, wherein said plant is a dicot.
 9. The nucleic acid of claim 8, wherein said dicot is Arabidopsis thaliana.
 10. The nucleic acid of claim 7, wherein said plant protein is a naturally occurring plant protein.
 11. The nucleic acid of claim 7, wherein said plant protein is a genetically modified plant protein.
 12. The nucleic acid of claim 5, wherein said nucleic acid encodes a fusion protein comprising an Arabidopsis thaliana protein and a fusion partner.
 13. The nucleic acid of claim 5 wherein said nucleic acid encodes a fusion protein comprising a plant protein and a fusion partner.
 14. A transgenic plant comprising an exogenous nucleic acid, wherein said nucleic acid comprises transcription regulatory sequences operably linked to a sequence capable of hybridizing under stringent conditions to a sequence set forth in SEQ ID NO: 1 to 900 or a fragment thereof, wherein said sequence is expressed in cells of said plant.
 15. The transgenic plant of claim 14, wherein said plant is regenerated from transformed embryogenic tissue.
 16. The transgenic plant of claim 14, wherein said plant is a progeny of one or more subsequent generations from transformed embryogenic tissue.
 17. The transgenic plant of claim 14, wherein said sequence capable of hybridizing under stringent conditions to a sequence set forth in SEQ ID NO: 1 to 900 encodes a plant protein.
 18. The transgenic plant of claim 14, wherein said plant protein is a naturally occurring plant protein.
 19. The transgenic plant of claim 14, wherein said plant protein is a genetically altered plant protein.
 20. The transgenic plant of claim 14, wherein said sequence expressed in cells of said plant is an anti-sense sequence.
 21. The transgenic plant of claim 14, wherein said sequence expressed in cells of said plant is a sense sequence.
 22. The transgenic plant of claim 14, wherein said sequence is selectively expressed in specific tissues of said plant.
 23. The transgenic plant of claim 14, wherein said specific tissue is selected from the group consisting of leaves, stems, roots, flowers, tissues, epicotyls, meristems, hypocotyls, cotyledons, pollen, ovaries, cells, and protoplasts.
 24. A genetically modified cell, comprising an exogenous nucleic acid, wherein said nucleic acid comprises transcription regulatory sequences operably linked to a sequence capable of hybridizing under stringent conditions to a sequence set forth in SEQ ID NO: 1 to 900, wherein said sequence is expressed in cells of said plant.
 25. A method of screening a candidate agent for its biological effect; the method comprising: combining said candidate agent with one of: a genetically modified cell according to claim 24, a transgenic plant according to claim 14, or a polypeptide according to claim 4; and determining the effect of said candidate agent on said plant, cell or polypeptide.
 26. A nucleic acid array comprising at least one nucleic acid as set forth in SEQ ID NO: 1-900 stably bound to a solid support.
 27. An array comprising at least one polypeptide encoded by a nucleic acid as set forth in SEQ ID NO: 1-900, stably bound to a solid support. 